Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

What is a rune in Go?

I've been googling but golang only says in one line: rune is an alias for int32.

But how come integers are used all around like swapping cases?

The following is a function swapcase. What is all the <= and -?

And why doesn't switch have any arguments?

&& should mean and but what is r <= 'z'?

func SwapRune(r rune) rune {
    switch {
    case 'a' <= r && r <= 'z':
        return r - 'a' + 'A'
    case 'A' <= r && r <= 'Z':
        return r - 'A' + 'a'
        return r

Most of them are from http://play.golang.org/p/H6wjLZj6lW

func SwapCase(str string) string {
    return strings.Map(SwapRune, str)

I understand this is mapping rune to string so that it can return the swapped string. But I do not understand how exactly rune or byte works here.

share|improve this question
Rather than asking what each token in the code means (nice code, by the way!) why not read an introductory text on the language, or take the Go tour on golang.org? –  Paul Hankin Oct 11 '13 at 6:49
It would also be nice if you'd stop deleting your questions while people try to answer them... (context: OP deleted (good) question about using + with reflection values). –  nemo Oct 11 '13 at 18:05

3 Answers 3

up vote 13 down vote accepted

Rune literals are just an integer value (as you've written). They are "mapped" to their unicode codepoint. For example the rule literal 'a' is in reality the number 97.

Therfore your program is pretty much equivalent to:

package main

import "fmt"

func SwapRune(r rune) rune {
    switch {
    case 97 <= r && r <= 122:
        return r - 32
    case 65 <= r && r <= 90:
        return r + 32
        return r

func main() {

which should be obvious if you look at the unicode mapping, which is identical to ASCII in that range. And 32 is the offset of the uppercase and lowercase characters. So if you add 32 to 'A', you get 'a' and vice versa.

share|improve this answer
This obviously works only for ASCII characters and not for accended characters such as 'ä', let alone more complicated cases like the 'ı' (U+0131). Go has special functions to map to lower case such as unicode.ToLower(r rune) rune. –  topskip Oct 11 '13 at 6:06
And to add to @topskip's correct answer with a SwapCase function that works for all codepoints and not just a-z: func SwapRune(r rune) rune { if unicode.IsUpper(r) { r = unicode.ToLower(r) } else { r = unicode.ToUpper(r) }; return r } –  ANisus Oct 11 '13 at 6:33
Runes are int32 values. That's the entire answer. They're not "mapped". –  thwd Oct 11 '13 at 11:38
@ANisus: Isn't that the same as golang.org/pkg/unicode/#SimpleFold? –  Alix Axel Feb 9 '14 at 5:09
@AlixAxel : The behavior of SimpleFold is essentially the same (It also uses ToLower and ToUpper for most runes). There are some cases where it differs such as: DZ->Dz, Dz->dz, dz->DZ. My SwapRune would instead go: DZ->dz, Dz->DZ, dz->DZ. I like your suggestion better :) –  ANisus Feb 10 '14 at 7:36

From the Go lang release notes: http://golang.org/doc/go1#rune

Rune is a Type. It occupies 32bit and is meant to represent a Unicode CodePoint. As an analogy the english characters set encoded in 'ASCII' has 128 code points. Thus is able to fit inside a byte (8bit). From this (erroneous) assumption C treated characters as 'bytes' char, and 'strings' as a 'sequence of characters' char*.

But guess what. There are many other symbols invented by humans other than the 'abcde..' symbols. And there are so many that we need 32 bit to encode them. In golang then a string is a sequence of runes.

The unicode package http://golang.org/pkg/unicode/ can give a taste of the richness of the challenge.

share|improve this answer
With the recent Unicode 6.3, there are over 110,000 symbols defined. This requires at least 21-bit representation of each code point, so a rune is like int32 and has plenty of bits. –  Rick-777 Oct 12 '13 at 12:08

I do not have enough reputation to post a comment to fabrizioM's answer, so I will have to post it here instead.

Fabrizio's answer is largely correct, and he certainly captured the essence of the problem - though there is a distinction which must be made.

A string is NOT necessarily a sequence of runes. It is a wrapper over a 'slice of bytes', a slice being a wrapper over a Go array. What difference does this make?

A rune is necessarily a 32-bit value, meaning a sequence of runes would necessarily have some number of bits x*32. Strings, being a sequence of bytes, instead have a length of x*8 bits. If all strings were actually in Unicode, this difference would have no impact. Since strings are slices of bytes, however, Go can use ASCII or any other arbitrary byte encoding.

String literals, however, are required to be written into the source encoded in UTF-8.

Source of information: http://blog.golang.org/strings

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.