https://mmcgrana.github.io/2012/09/go-by-example-timers-and-tickers.html
--------------------------------------------------------------------------------------------------------------------------
Timers and Tickers
If you’re interested in Go, be sure to check out Go by Example.
We often want to execute Go code at some point in the future, or repeatedly at some interval. Go’s built-in timer and ticker features make both of these tasks easy. Let’s look at some examples to see how they work.
Timers
Timers represent a single event in the future. You tell the timer how long you want to wait, and it gives you a channel that will be notified at that time. For example, to wait 2 seconds:
package main
import "time"
func main() {
timer := time.NewTimer(time.Second * 2)
<- timer.C
println("Timer expired")
}
The <- timer.C
blocks on the timer’s channel C
until it sends a value indicating that the timer expired. You can test this by putting the code in timers1.go
and running it with time
and go run
:
$ time go run timers1.go
Timer expired
real 0m2.113s
If you just wanted to wait, you could have used time.Sleep
. One reason a timer may be useful is that you can cancel the timer before it expires. For example, try running this in timers2.go
:
package main
import "time"
func main() {
timer := time.NewTimer(time.Second)
go func() {
<- timer.C
println("Timer expired")
}()
stop := timer.Stop()
println("Timer cancelled:", stop)
}
$ go run timers2.go
Timer cancelled: true
In this case we canceled the timer before it had a chance to expire (Stop()
would return false if we tried to cancel it after it expired.)
Tickers
Timers are for when you want to do something once in the future - tickers are for when you want to do something repeatedly at regular intervals. Here’s a basic example:
package main
import "time"
import "fmt"
func main() {
ticker := time.NewTicker(time.Millisecond * 500)
go func() {
for t := range ticker.C {
fmt.Println("Tick at", t)
}
}()
time.Sleep(time.Millisecond * 1500)
ticker.Stop()
fmt.Println("Ticker stopped")
}
Try it out in tickers.go
:
$ go run tickers.go
Tick at 2012-09-22 15:58:40.912926 -0400 EDT
Tick at 2012-09-22 15:58:41.413892 -0400 EDT
Tick at 2012-09-22 15:58:41.913888 -0400 EDT
Ticker stopped
Tickers can be stopped just like timers using the Stop()
method, as shown at the bottom of the example.
Power of Channels
A great feature of Go’s timers and tickers is that they hook into Go’s built-in concurrency mechanism: channels. This allows timers and tickers to interact seamlessly with other concurrent goroutines. For example:
package main
import "time"
import "fmt"
func main() {
timeChan := time.NewTimer(time.Second).C
tickChan := time.NewTicker(time.Millisecond * 400).C
doneChan := make(chan bool)
go func() {
time.Sleep(time.Second * 2)
doneChan <- true
}()
for {
select {
case <- timeChan:
fmt.Println("Timer expired")
case <- tickChan:
fmt.Println("Ticker ticked")
case <- doneChan:
fmt.Println("Done")
return
}
}
}
Try it out by running this code form channels.go
:
$ go run channels.go
Ticker ticked
Ticker ticked
Timer expired
Ticker ticked
Ticker ticked
Ticker ticked
Done
In this case we see the timer, ticker, and our own custom goroutine all participating in the same select
block. The combination of the Go runtime, its channel feature, and timers/tickers use of channels make this kind of cooperation very natural in Go.
You can learn more about timers, tickers, and other time-related Go features in the Gotime
package docs.