4

I know everything is passed by value in Go, meaning if I give a slice to a function and that function appends to the slice using the builtin append function, then the original slice will not have the values that were appended in the scope of the function.

For instance:

nums := []int{1, 2, 3}

func addToNumbs(nums []int) []int {
    nums = append(nums, 4)
    fmt.Println(nums) // []int{1, 2, 3, 4}
}

fmt.Println(nums) // []int{1, 2, 3}

This causes a problem for me, because I am trying to do recursion on an accumulated slice, basically a reduce type function except the reducer calls itself.

Here is an example:

func Validate(obj Validatable) ([]ValidationMessage, error) {
    messages := make([]ValidationMessage, 0)

    if err := validate(obj, messages); err != nil {
        return messages, err
    }

    return messages, nil
}

func validate(obj Validatable, accumulator []ValidationMessage) error {
    // If something is true, recurse
    if something {
        if err := validate(obj, accumulator); err != nil {
            return err
        }
    }

    // Append to the accumulator passed in
    accumulator = append(accumulator, message)

    return nil
}

The code above gives me the same error as the first example, in that the accumulator does not get all the appended values because they only exist within the scope of the function.

To solve this, I pass in a pointer struct into the function, and that struct contains the accumulator. That solution works nicely.

My question is, is there a better way to do this, and is my approach idiomatic to Go?

Updated solution (thanks to icza):

I just return the slice in the recursed function. Such a facepalm, should have thought of that.

func Validate(obj Validatable) ([]ValidationMessage, error) {
    messages := make([]ValidationMessage, 0)
    return validate(obj, messages)
}

func validate(obj Validatable, messages []ValidationMessage) ([]ValidationMessage, error) {
    err := v.Struct(obj)

    if _, ok := err.(*validator.InvalidValidationError); ok {
        return []ValidationMessage{}, errors.New(err.Error())
    }

    if _, ok := err.(validator.ValidationErrors); ok {
        messageMap := obj.Validate()

        for _, err := range err.(validator.ValidationErrors) {
            f := err.StructField()
            t := err.Tag()

            if v, ok := err.Value().(Validatable); ok {
                return validate(v, messages)
            } else if _, ok := messageMap[f]; ok {
                if _, ok := messageMap[f][t]; ok {
                    messages = append(messages, ValidationMessage(messageMap[f][t]))
                }
            }
        }
    }

    return messages, nil
}
  • 1
    Return the new slice, just like the builtin append() does (and assign back the return value at the caller), or pass a pointer to the slice, not the slice header. – icza Mar 22 '18 at 12:30
  • I can't return the new slice since I must work off the slice for recursion, but I think passing a pointer to the slight might work? Let me try that.. – Lansana Camara Mar 22 '18 at 12:31
  • Recursive calls can also return values, I don't see a problem in that. If you go with passing slice pointers, note that handling them is more "verbose", see Slicing a slice pointer passed as argument as an example. – icza Mar 22 '18 at 12:33
  • 1
    You know what, you're totally right. Don't know what I was thinking. Returning the slice from the recursive function worked nicely for me. Thanks a lot. – Lansana Camara Mar 22 '18 at 12:36
  • @icza the validate(obj Validatable, messages []ValidationMessage) manipulate a copy of messages not the "real" messages. So every time your return, you return a copy of the old slice. Wouldn't it be better if he passes the address of the slice?! validate(obj Validatable, messages *[]ValidationMessage). This way he can change the content directly: *messages = append(*messages, ValidationMessage(messageMap[f][t])). – elmiomar Mar 22 '18 at 16:33
4

Slice grows dynamically as required if the current size of the slice is not sufficient to append new value thereby changing the underlying array. If this new slice is not returned, your append change will not be visible.

Example:

package main

import (
    "fmt"
)

func noReturn(a []int, data ...int) {
    a = append(a, data...)
}

func returnS(a []int, data ...int) []int {
    return append(a, data...)
}

func main() {
    a := make([]int, 1)
    noReturn(a, 1, 2, 3)
    fmt.Println(a) // append changes will not visible since slice size grew on demand changing underlying array

    a = returnS(a, 1, 2, 3)
    fmt.Println(a) // append changes will be visible here since your are returning the new updated slice
}

Result:

[0]
[0 1 2 3]

Note:

  1. You don't have to return the slice if you are updating items in the slice without adding new items to slice
  • 1
    Thanks, this is a good explanation, however it does not offer a solution to the problem :) nevertheless, I've already found a solution by just returning the slice in the recursive function, then I don't have to try operating on a pointer to a slice or pass a pointer struct containing the slice around. – Lansana Camara Mar 22 '18 at 12:53
  • 1
    "You don't have to return the slice if your slice was initialized with size enough to append new values." This is false. If you append to a slice, even if the underlying array has sufficient space for the appended values, the appended values will not be present in the calling function's slice because the slice header also contains length and capacity fields, and those won't be updated by the append. You can access them by subslicing beyond the length of the slice, but they won't just automatically show up. Example: play.golang.org/p/z1mIuIDdMkJ – Kaedys Mar 22 '18 at 14:38
  • @kaedys updated the answer. Thank you :) – vedhavyas Mar 22 '18 at 15:01

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