I recently stumbled upon a problem trying to sort a structure on a key containing french strings. The classical sort.SliceStable doesn't take the accented characters into account correctly according the french rules for alphabetical sort.

Thankfully, the collate package does that correctly, but I couldn't find a way to directly use that package on structures without using it combined with the sort.SliceStable function.

This what I came up with that seems to work correctly:

import (


type SortFr struct {
    Order int
    Fr    string

func main() {

    // the int SortFr.Order reflects the correct french sort order
    s := []SortFr{
        SortFr{2, "côte"},
        SortFr{0, "cote"},
        SortFr{5, "coter"},
        SortFr{1, "coté"},
        SortFr{4, "cotée"},
        SortFr{3, "côté"},

    // incorrect sort order 
    sort.SliceStable(s, func(i, j int) bool {
        return s[i].Fr < s[j].Fr

    // correct sort order
    cl := collate.New(language.French)
    sort.SliceStable(s, func(i, j int) bool {
        return cl.CompareString(s[i].Fr, s[j].Fr) == -1


This code returns:

[{0 cote} {5 coter} {1 coté} {4 cotée} {2 côte} {3 côté}]
[{0 cote} {1 coté} {2 côte} {3 côté} {4 cotée} {5 coter}]

Is this the most efficient way to do this on large structures?

  • The "most efficient way" is to not sort at all. If you ask whether sort.Slice is less efficient than sort.Sort: Yes. use sort.Sort. Collation is slow and you cannot do anything against it. Except: Add an extra field Accentless, copy Fr to it while remove all accents and sort on that one. This won't give your french collation o rder but mightb e much faster.
    – Volker
    Commented Nov 2, 2020 at 8:45

1 Answer 1


Your sorting is based on a less function which simply calls cl.CompareString(). What simpler do you wish for? You have to tell somehow / somewhere you want to sort based on the Fr field, and this is how you can do that.

sort.SliceStable() is generic in a way that it can sort any slice. For this it has to use reflection under the hood, which is slower than a solution that doesn't have to resort to reflection. So if you want to sort a large slice, implementing sort.Interface is profitable.

var cl = collate.New(language.French)

type FrSlice []SortFr

func (s FrSlice) Len() int           { return len(s) }
func (s FrSlice) Less(i, j int) bool { return cl.CompareString(s[i].Fr, s[j].Fr) < 0 }
func (s FrSlice) Swap(i, j int)      { s[i], s[j] = s[j], s[i] }

And then using it:

s := []SortFr{
    // ...


Also note that sort.Sort() may be somewhat faster than sort.Stable(), as the former does not have to guarantee the original order of equal elements. So use sort.Sort() if keeping original order of equal elements is not a requirement.

  • Just ran a benchmark and sort.Sort() on a interface type is indeed the fastest but by a small margin compared to sort.Slice() on a custom comparator. BenchmarkSortInterface-8 325581813 ns/op 87795264 B/op 629477 allocs/op BenchmarkSortSlice-8 329308126 ns/op 87795288 B/op 629479 allocs/op
    – ripat
    Commented Nov 2, 2020 at 17:40

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