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Kyriakos Kentzoglanakis
Kyriakos Kentzoglanakis

Posted on • Updated on

The golang for-loop gotcha

This bit me again the other day so what better way to exorcize the resulting bug in production code than to write a small article about it?

So, let's raise hands: who among us has not written code that looks somewhat like this trivial example:

package main

import (
    "fmt"
    "time"
)

func main() {
    for i := 0; i<5; i++ {
        go func() {
            fmt.Print(i)
        }()
    }
    // let's wait a little bit for the goroutines to execute before we exit
    time.Sleep(100 * time.Millisecond)
}
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(very few hands raised in the audience) 😁

Now, one reasonable assumption would be that this program will print the numbers from 1 to 5.

This assumption would be wrong though; the program consistently prints the string 55555 (if the result is different on your computer, which shouldn't be, then try increasing the sleep duration at the end).

Why is that? The reason is that all goroutines close over the same variable (i in this case) so, when they are executed, the variable will have assumed its last value after the completion of the iteration loop (which is 5).

We can observe the difference in behaviour when we introduce a small delay at the end of each iteration like so:

    ...
    // data race
    for i := 0; i<5; i++ {
        go func() {
            fmt.Print(i)
        }()
        time.Sleep(50 * time.Millisecond)
    }
    ...
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The output in this case would be 01234 because each goroutine would most probably be executed before the value of the shared loop variable i was incremented by one.

In essence, this data race (which can lead to wicked and hard-to-find bugs) is caused by the unsafe sharing of mutable state (in this case i) among the competing concurrent goroutines and is well described on the interwebs (this article for example has an excellent explanation). The official Golang wiki even lists this situation as one of the two most common golang mistakes that onecan make (hint: the other mistake also has to do with for loop variables).

So, what is the correct way of implementing the use case of asynchronously processing a series of values in a for loop using goroutines? The answer is simply to stop sharing the mutable state, i.e. copy the state variable (in this case i) within each iteration and pass it to each goroutine like so:

    ...
    // no data race
    for i := 0; i<5; i++ {
        go func(n int) {
            fmt.Print(n)
        }(i)
    }
    ...
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In this implementation, we are passing i by value as an argument (n) into the goroutine; n is now a goroutine-local copy of i and further changes to i are not reflected on n.

Alternatively, we could close over an iteration-local copy of i as follows:

    ...
    // no data race
    for i := 0; i<5; i++ {
        n := i
        go func() {
            fmt.Print(n)
        }()
    }
    ...
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It is perhaps worth pointing out that Golang's for loop variable gotcha is not some idiosyncratic language runtime misbehaviour that is specific to the for loop but, rather, a classic example of failing to synchronize concurrent access to a shared resource either by locking it or copying it (our preferred solution in this case). Here's an example of the same problem without a for loop:

package main

import (
    "fmt"
    "time"
)

func main() {
    n := 10
    // data race
    go func() {
        time.Sleep(100 * time.Millisecond)
        fmt.Print(n)
    }()
    n = 11
    time.Sleep(200 * time.Millisecond)
}
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This will print 11 instead of 10.

So, when closing over an outer variable in something like a
gouroutine, a good tip would be to always think: who can access the outer variable and if/how access needs to be synchronized. Passing a copy of the state is always a safe choice!

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