Is there a sound use case for having multiple variables of the same name in different scopes? [closed]

Question

The following (contrived) code defines two occurrences or "instances" of the variable i :

import "fmt"

func main() {
    goto_done := false
    i := 3
fred:
    fmt.Printf("i #1 = %d\n", i)
    if !goto_done {
        i := 4
        fmt.Printf("i #2 = %d\n", i)
        goto_done = true
        goto fred
    }
}

and from the output, as follows, it can be seen that these both persist as separate values, in that defining the second does not overwrite the first:

i #1 = 3
i #2 = 4
i #1 = 3

Is there any constructive use case of this feature, or is it just a quirk of the language?

Answer 1

Here are a few use cases:

1. Closures

Go has closures, meaning you can create an anonymous function which references enclosing variables. There are many great uses of closures, but this means that anonymous functions inherit their enclosing variable names.

err := trySomething()

workChan := make(chan work)

// start a worker
go func() {
    // we're using the existing workChan from the enclosing scope
    for job := range workChan {
        //  vv this is name shadowing! (we're shadowing the existing err)
        err := do(job)
        if err != nil {
            logError(err) 
        }
    }
}()

err = tryAnotherThing()
if err != nil {
    return err
}

If we couldn't shadow the name, then the worker and the main thread would be competing for use of the same err variable (resulting in undefined behaviour). So, you can thank shadowing for that you don't have to type err2, errr, etc.

---

2. Adding new names in enclosing scopes

Suppose you have an existing package and you want to add a new global constant or variable called gopher. You don't want to have to search every scope in the the entire package source to see if the name gopher was already used anywhere.

In the Go 1.18 release, there were added two new predeclared identifiers: any and comparable. Since name shadowing is allowed, universal identifiers like these can be added to Go without breaking previously correct Go programs (see also Go 1 compatability declaration)

---

3. Pasting code

Shadowing allows you to copy and paste "self contained" code like this, and have it work (pretty much) wherever you put it.

// Print Fibonacci numbers
for i, j := 0, 1; j < 100; i, j = j, i+j {
    fmt.Println(j)
}

i and j are very common variable names so if shadowing isn't allowed, there's a good chance of conflict if you try to paste this somewhere in your code, resulting in an error.

Of course, it's generally good to avoid shadowing as it can lead to unexpected bugs and makes your code less readable (especially without scope-aware highlighting you might get in an IDE). In a longer, more realistic scenario, you would want to rename any shadowed names you might have pasted in. Thankfully, with shadowing being valid in the language, it should actually make it easier to rename them:

Since i and j are valid and distinct variables, a good IDE should allow you to quickly rename those variables and all their usages as you would any other variable.