In Go, it can be specified which direction a channel can send. I am trying to create an example about it, look at the following code:

package main

import (

func main() {

    ic_send_only := make(<-chan int) //a channel that can only send data - arrow going out is sending
    ic_recv_only := make(chan<- int) //a channel that can only receive a data - arrow going in is receiving

    go func() {
        ic_recv_only <- 4555

    go func() {

        ic_send_only <- ic_recv_only




I get the compiler error

# command-line-arguments
.\send_receive.go:19: invalid operation: ic_send_only <- ic_recv_only (send to receive-only type <-chan int)
[Finished in 0.2s with exit code 2]

How can I use channel direction in the right way?

Or does anyone have a better sample than me?


Three issues:

  • You have the send and receive operations reversed (which is the error you're seeing)
  • Creating recv-only or send-only channels make no sense, as you cannot use them
  • The notation you're using is trying to send the channel itself, not the result. You need to receive and send, which requires two arrows.

    ic_recv_only <- <-ic_send_only

You may be confused because you have the terminology reversed. <-ch is a "receive operation", and ch <- is a send operation. Note that in your example, everything would be deadlocked because you can't complete the corresponding sends and receives to pass something through either channel.

Here is a complete example:

// This receives an int from a channel. The channel is receive-only
func consumer(ch <-chan int) int {
    return <-ch

// This sends an int over a channel. The channel is send-only
func producer(i int, ch chan<- int) {
    ch <- i

func main() {
    ch := make(chan int)
    go producer(42, ch)
    result := consumer(ch)
    fmt.Println("received", result)
  • 1
    Also fmt.Println(ic_recv_only) is probably a mistake. – cnicutar Aug 5 '14 at 14:36
  • Do you have a better sample then my? – zero_coding Aug 5 '14 at 14:39
  • @zero_coding: OK, I think I see what you're looking for. All add an example. – JimB Aug 5 '14 at 14:45
  • I'm wondering what is the use of creating a receive-only or send-only channel. I understand the use of creating a bidirectional channel and then make it read or write only by conversion or assignment, when used as function parameter for example. But why when creating it? – siritinga Aug 5 '14 at 14:57
  • 1
    @siritinga: there isn't really a reason to make a one-way channel, since you can't use it. – JimB Aug 5 '14 at 15:02

The key point that JimB has made, to summarise, is that

  • You create channels using make
  • Every channel has two ends.
  • You communicate via the ends of channels via <-. The ends are important.
  • There is a sending end and a receiving end; channels are unidirectional.

Note also that each end can be safely accessed concurrently by more than one goroutine.

Also note that JimB's example producer(i int, ch chan<- int) and consumer(ch <-chan int) functions have parameters that specify which end they use via <-chan and chan<-, instead of just chan. Although this is optional, it is good practice because the compiler will help you fix silly mistakes if you do this.

  • Aside: Go did not (alas) use the original CSP notation ? for receive and ! for send. Instead it has <- for both actions, which IMHO is less clear. – Rick-777 Aug 11 '14 at 10:47

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