I was reading some go code and say a few different ways to pass go channels. Maybe they are the same but I was wondering if there is any difference since I couldn't find documentation online:


func serve(ch <-chan interface{}){ //do stuff }


func serve(ch chan<- interface{}){ //do stuff }


func serve(ch chan interface{}){ //do stuff }


func server(ch *chan interface{}){ //do stuff}

I was wondering what the difference between them were and if they were just equivalent ways to do the same thing: pass a channel around different goroutines.

NOTE: I am aware that there is no reason to pass a pointer to a chan, map, or slice, or function value, since those are all reference types which internally contain a pointer (the exception would be if you want the callee to change the reference type header). The only reason I provided it is for completeness (i.e. to really provide every way a channel could be attempted to be passed as a parameter and to make on question that hopefully, references all ways to do this and compares them).


These are different types of channels. See http://golang.org/ref/spec#Channel_types . For the pointer stuff: Uncommon, but might be useful if you want to change the channel from inside the function (never saw that in the wild).

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I always recommend that the direction is passed everywhere it is possible, e.g.

func serve(ch <-chan SomeType) { /*do stuff*/ }

func serve(ch chan<- SomeType) { /*do stuff*/ }

By including the arrow <-chan or chan<-, you are achieving three things:

  • You are making it clear that the parameter is an end of a channel.
  • You are expressing clearly which end is being supplied.
  • You are giving more information to the compiler for checking. If the function body tries to use the wrong end of the channel, the compiler can raise an error.

These are good reasons to show the channel end whenever possible.

Your third case depicts not specifying the end of the channel. This allows both ends of the channel to be accessed, which will be correct in some cases but in other cases may lead to accidental errors.

The fourth case, passing a pointer to a channel, is quite unusual and perhaps a bit odd. If you wanted to change the channel, it would be clearer to include it as a return parameter instead.

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  • 6
    Nice answer except that the correct term for "end" is "direction" / "channel direction". Please see here in the spec. – Siu Ching Pong -Asuka Kenji- Dec 28 '15 at 3:45
  • 3
    The spec does indeed say 'direction', but that's not necessarily helpful for newbies. With CSP designs, one can think loosely of channels like pipes for fluid - pour it in one end and out at the other. In Occam, this distinction is explicit, but in Go it is (deliberately) more blurred. In particular, with Go it is possible to use a buffered channel completely within a single goroutine, so the spec refers to direction rather than ends. This kind of usage is not possible in CSP, but Go's channel's implementation is flexible and allows it. – Rick-777 Dec 29 '15 at 21:32
  • In addition, it may be helpful to think of channel ends when considering whether a network can deadlock. There are theoretical proofs that a directed graph is deadlock free if it is acyclic. You need to think about the direction of the channels to reason about this. The ends and the direction are in effect interchangeable - both are useful concepts. – Rick-777 Dec 29 '15 at 21:33

The rule of thumb: Arrow shows if the data is going into (output) or going out of (input) channel. No arrow is general purpose channel.

chan <-          writing to channel (output channel)
<- chan          reading from channel (input channel)
chan             read from or write to channel (input/output channel)
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