22

How do I check if a channel has a value for me to read?

I don't want to block when reading a channel. I want to see if it has a value. If it does have one, I'll read it. If it doesn't have one (yet), I'll do something else and check back again later.

Thanks!

5

WARNING: This is no longer accurate, see the answer below.

From the docs:

If a receive expression is used in an assignment or initialization of the form

x, ok = <-ch
x, ok := <-ch
var x, ok = <-ch

the receive operation becomes non-blocking. If the operation can proceed, the boolean variable ok will be set to true and the value stored in x; otherwise ok is set to false and x is set to the zero value for its type

  • 8
    Warning! Receive used to work like this but it no longer does. See Ripounet's answer and above all, check the language spec for the version of Go you are using. – Sonia Jan 2 '13 at 19:14
66

The only non-blocking operation I know of to read from a channel is inside a select block having a default case :

    select {
    case x, ok := <-ch:
        if ok {
            fmt.Printf("Value %d was read.\n", x)
        } else {
            fmt.Println("Channel closed!")
        }
    default:
        fmt.Println("No value ready, moving on.")
    }

Please try the non-blocking here

Note about previous answers: the receive operator itself is now a blocking operation, as of Go 1.0.3 . The spec has been modified. Please try the blocking here (deadlock)

  • This can be combined with a ticker when used in a forever loop, for periodic checks. The ticker will prevent tight loops. – Anfernee Apr 30 '16 at 2:08
  • @AJPennster Well, the point of the default blocking behavior is, among other things, to eliminate the need of various kinds of busy-looping. The "non-blocking read" code should IMO be avoided if possible. And if you're spinning in tight loops or even loose ticking loops around the "non-blocking read", then you're most probably using it very wrong. Prefer properly decoupled goroutines, with blocking reads. – Deleplace May 1 '16 at 18:47
  • Right. makes sense. – Anfernee May 3 '16 at 17:00
7

If you're doing this often then it's probably not a great design and you might be better off spawning another goroutine to do whatever work you're planning to do when there isn't anything to read from the channel. The synchronous/blocking nature of Go's channels make code easier to read and reason about while the scheduler and cheap goroutines means that async calls are unnecessary since waiting goroutines take up very little resources.

  • This should be the correct answer and I wish had more up votes. You shouldn't have two different workflows depending on if a channel has something available or not. You are likely trying to do to much with one channel, need to restructure your program, or need an additional channel. – mschuett Mar 18 '15 at 22:16
7

You don't, at least not for synchronous (unbuffered) channels. There is no way to tell if a value is waiting without asking to take the value from the channel.

For buffered channels, you technically can use the len function to do what you describe, but you really, really shouldn't. Your technique is invalid.

The reason is that it represents a race condition. Given channel ch, your goroutine might see that len(ch) > 0 and conclude that there is a value waiting. It cannot conclude however, that it can read from the channel without blocking--another goroutine might empty the channel between the time you check len and the time your receive operation runs.

For the purpose you described, use select with a default case as Ripounet showed.

3

Unfortunately, the previous answers are incorrect. The spec clearly says that you CAN use channels this way using len() function, but only if you specified the channel capacity - the buffer length for a channel while making it. If you omitted a channel capacity while making it - the channel operations are always blocking.

  • Was looking for a performance comparison of the 2 as I'm doing thousands of checks per second. Using len() is about 7x faster than a select{} with go 1.9.1. gist.github.com/phemmer/428685f5366c4b71b39d1037e6124a73 – Patrick Dec 9 '17 at 2:44
  • 1
    Wouldn't your len() implementation have a race condition? I.E. two goroutines could see len(chn) != 0 and then block when they run v := <-chn since only one would actually get the value. – John Gibb Feb 1 '18 at 19:57
  • @JohnGibb - If the number of readers was known, every reader could avoid reading until all readers would succeed. ;-) In the case of one reader, then the check != 0 would be just fine. – Omnifarious Feb 13 '18 at 1:25
-1

In most cases relying on such information is a really bad design choice. Not even saying about how it's dirty in it's implementation.

So, do not implement the following steps to detect if channel is ready for read at runtime:

  • define hchan waitq sudog structs as defined here - https://golang.org/src/runtime/chan.go
  • use "unsafe" package to cast channel to pointer to hchan struct
  • read sendq field of this struct to get listeners
  • read first sudog and read msg field from there.
  • cast msg to the appropriate type for the channels using "reflect" and "unsafe"
  • Why would doing that be a bad design choice? Why shouldn't those particular steps be followed? Is there a better way to implement something that will solve the problem? – Taegost Nov 28 '17 at 14:26
  • Because from concurrency standpoint this introduces invisible channel that hold information about value existence on original channel. The steps i've described should not be followed for sarcastic reasons. A better implementation would be to explicitly create another channel holding info about original one. – Artem Co Nov 29 '17 at 14:48
  • That information should be in your answer, including the "correct" way to do things. Sarcastic answers that aren't meant to be followed aren't good answers. – Taegost Dec 4 '17 at 13:48

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