// Copyright 2009 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package time // Sleep pauses the current goroutine for at least the duration d. // A negative or zero duration causes Sleep to return immediately. func Sleep(d Duration) // runtimeNano returns the current value of the runtime clock in nanoseconds. func runtimeNano() int64 // Interface to timers implemented in package runtime. // Must be in sync with ../runtime/time.go:/^type timer type runtimeTimer struct { i int when int64 period int64 f func(interface{}, uintptr) // NOTE: must not be closure arg interface{} seq uintptr } // when is a helper function for setting the 'when' field of a runtimeTimer. // It returns what the time will be, in nanoseconds, Duration d in the future. // If d is negative, it is ignored. If the returned value would be less than // zero because of an overflow, MaxInt64 is returned. func when(d Duration) int64 { if d <= 0 { return runtimeNano() } t := runtimeNano() + int64(d) if t < 0 { t = 1<<63 - 1 // math.MaxInt64 } return t } func startTimer(*runtimeTimer) func stopTimer(*runtimeTimer) bool // The Timer type represents a single event. // When the Timer expires, the current time will be sent on C, // unless the Timer was created by AfterFunc. // A Timer must be created with NewTimer or AfterFunc. type Timer struct { C <-chan Time r runtimeTimer } // Stop prevents the Timer from firing. // It returns true if the call stops the timer, false if the timer has already // expired or been stopped. // Stop does not close the channel, to prevent a read from the channel succeeding // incorrectly. // // To prevent a timer created with NewTimer from firing after a call to Stop, // check the return value and drain the channel. // For example, assuming the program has not received from t.C already: // // if !t.Stop() { // <-t.C // } // // This cannot be done concurrent to other receives from the Timer's // channel. // // For a timer created with AfterFunc(d, f), if t.Stop returns false, then the timer // has already expired and the function f has been started in its own goroutine; // Stop does not wait for f to complete before returning. // If the caller needs to know whether f is completed, it must coordinate // with f explicitly. func (t *Timer) Stop() bool { if t.r.f == nil { panic("time: Stop called on uninitialized Timer") } return stopTimer(&t.r) } // NewTimer creates a new Timer that will send // the current time on its channel after at least duration d. func NewTimer(d Duration) *Timer { c := make(chan Time, 1) t := &Timer{ C: c, r: runtimeTimer{ when: when(d), f: sendTime, arg: c, }, } startTimer(&t.r) return t } // Reset changes the timer to expire after duration d. // It returns true if the timer had been active, false if the timer had // expired or been stopped. // // Resetting a timer must take care not to race with the send into t.C // that happens when the current timer expires. // If a program has already received a value from t.C, the timer is known // to have expired, and t.Reset can be used directly. // If a program has not yet received a value from t.C, however, // the timer must be stopped and—if Stop reports that the timer expired // before being stopped—the channel explicitly drained: // // if !t.Stop() { // <-t.C // } // t.Reset(d) // // This should not be done concurrent to other receives from the Timer's // channel. // // Note that it is not possible to use Reset's return value correctly, as there // is a race condition between draining the channel and the new timer expiring. // Reset should always be invoked on stopped or expired channels, as described above. // The return value exists to preserve compatibility with existing programs. func (t *Timer) Reset(d Duration) bool { if t.r.f == nil { panic("time: Reset called on uninitialized Timer") } w := when(d) active := stopTimer(&t.r) t.r.when = w startTimer(&t.r) return active } func sendTime(c interface{}, seq uintptr) { // Non-blocking send of time on c. // Used in NewTimer, it cannot block anyway (buffer). // Used in NewTicker, dropping sends on the floor is // the desired behavior when the reader gets behind, // because the sends are periodic. select { case c.(chan Time) <- Now(): default: } } // After waits for the duration to elapse and then sends the current time // on the returned channel. // It is equivalent to NewTimer(d).C. // The underlying Timer is not recovered by the garbage collector // until the timer fires. If efficiency is a concern, use NewTimer // instead and call Timer.Stop if the timer is no longer needed. func After(d Duration) <-chan Time { return NewTimer(d).C } // AfterFunc waits for the duration to elapse and then calls f // in its own goroutine. It returns a Timer that can // be used to cancel the call using its Stop method. func AfterFunc(d Duration, f func()) *Timer { t := &Timer{ r: runtimeTimer{ when: when(d), f: goFunc, arg: f, }, } startTimer(&t.r) return t } func goFunc(arg interface{}, seq uintptr) { go arg.(func())() }