lenF-1 && j <= lenS-1 { a[z] = s[j] j++ } else if j > lenS-1 && i <= lenF-1 { a[z] = f[i] i++ } else if f[i] < s[j] { a[z] = f[i] i++ } else { a[z] = s[j] j++ } } return a } func main() { a := []int{75, 12, 34, 45, 0, 123, 32, 56, 32, 99, 123, 11, 86, 33} fmt.Println(a) fmt.Println(mergeSort(a)) }"> lenF-1 && j <= lenS-1 { a[z] = s[j] j++ } else if j > lenS-1 && i <= lenF-1 { a[z] = f[i] i++ } else if f[i] < s[j] { a[z] = f[i] i++ } else { a[z] = s[j] j++ } } return a } func main() { a := []int{75, 12, 34, 45, 0, 123, 32, 56, 32, 99, 123, 11, 86, 33} fmt.Println(a) fmt.Println(mergeSort(a)) }"> lenF-1 && j <= lenS-1 { a[z] = s[j] j++ } else if j > lenS-1 && i <= lenF-1 { a[z] = f[i] i++ } else if f[i] < s[j] { a[z] = f[i] i++ } else { a[z] = s[j] j++ } } return a } func main() { a := []int{75, 12, 34, 45, 0, 123, 32, 56, 32, 99, 123, 11, 86, 33} fmt.Println(a) fmt.Println(mergeSort(a)) }"> 
package main

import "fmt"

func mergeSort(a []int) []int {
    if len(a) < 2 {
        return a
    }
    m := (len(a)) / 2

    f := mergeSort(a[:m])
    s := mergeSort(a[m:])

    return merge(f, s)
}

func merge(f []int, s []int) []int {
    var i, j int
    size := len(f) + len(s)

    a := make([]int, size, size)

    for z := 0; z < size; z++ {
        lenF := len(f)
        lenS := len(s)

        if i > lenF-1 && j <= lenS-1 {
            a[z] = s[j]
            j++
        } else if j > lenS-1 && i <= lenF-1 {
            a[z] = f[i]
            i++
        } else if f[i] < s[j] {
            a[z] = f[i]
            i++
        } else {
            a[z] = s[j]
            j++
        }
    }

    return a
}

func main() {
    a := []int{75, 12, 34, 45, 0, 123, 32, 56, 32, 99, 123, 11, 86, 33}
    fmt.Println(a)
    fmt.Println(mergeSort(a))
}