I've been updating some of my old code and answers with Swift 3 but when I got to Swift Strings and Indexing it has been a pain to understand things.

Specifically I was trying the following:

let str = "Hello, playground"
let prefixRange = str.startIndex..<str.startIndex.advancedBy(5) // error

where the second line was giving me the following error

'advancedBy' is unavailable: To advance an index by n steps call 'index(_:offsetBy:)' on the CharacterView instance that produced the index.

I see that String has the following methods.

str.index(after: String.Index)
str.index(before: String.Index)
str.index(String.Index, offsetBy: String.IndexDistance)
str.index(String.Index, offsetBy: String.IndexDistance, limitedBy: String.Index)

These were really confusing me at first so I started playing around with them until I understood them. I am adding an answer below to show how they are used.


4 Answers 4


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All of the following examples use

var str = "Hello, playground"

startIndex and endIndex

  • startIndex is the index of the first character
  • endIndex is the index after the last character.


// character
str[str.startIndex] // H
str[str.endIndex]   // error: after last character

// range
let range = str.startIndex..<str.endIndex
str[range]  // "Hello, playground"

With Swift 4's one-sided ranges, the range can be simplified to one of the following forms.

let range = str.startIndex...
let range = ..<str.endIndex

I will use the full form in the follow examples for the sake of clarity, but for the sake of readability, you will probably want to use the one-sided ranges in your code.


As in: index(after: String.Index)

  • after refers to the index of the character directly after the given index.


// character
let index = str.index(after: str.startIndex)
str[index]  // "e"

// range
let range = str.index(after: str.startIndex)..<str.endIndex
str[range]  // "ello, playground"


As in: index(before: String.Index)

  • before refers to the index of the character directly before the given index.


// character
let index = str.index(before: str.endIndex)
str[index]  // d

// range
let range = str.startIndex..<str.index(before: str.endIndex)
str[range]  // Hello, playgroun


As in: index(String.Index, offsetBy: String.IndexDistance)

  • The offsetBy value can be positive or negative and starts from the given index. Although it is of the type String.IndexDistance, you can give it an Int.


// character
let index = str.index(str.startIndex, offsetBy: 7)
str[index]  // p

// range
let start = str.index(str.startIndex, offsetBy: 7)
let end = str.index(str.endIndex, offsetBy: -6)
let range = start..<end
str[range]  // play


As in: index(String.Index, offsetBy: String.IndexDistance, limitedBy: String.Index)

  • The limitedBy is useful for making sure that the offset does not cause the index to go out of bounds. It is a bounding index. Since it is possible for the offset to exceed the limit, this method returns an Optional. It returns nil if the index is out of bounds.


// character
if let index = str.index(str.startIndex, offsetBy: 7, limitedBy: str.endIndex) {
    str[index]  // p

If the offset had been 77 instead of 7, then the if statement would have been skipped.

Why is String.Index needed?

It would be much easier to use an Int index for Strings. The reason that you have to create a new String.Index for every String is that Characters in Swift are not all the same length under the hood. A single Swift Character might be composed of one, two, or even more Unicode code points. Thus each unique String must calculate the indexes of its Characters.

It is possible to hide this complexity behind an Int index extension, but I am reluctant to do so. It is good to be reminded of what is actually happening.

  • 26
    Why would startIndex be anything else than 0?
    – Robo Robok
    Jul 3, 2017 at 11:44
  • 29
    @RoboRobok: Because Swift works with Unicode characters, which are made of "grapheme clusters", Swift doesn't use integers to represent index locations. Let's say your first character is an é. It is actually made of the e plus a \u{301} Unicode representation. If you used an index of zero, you would get either the e or the accent ("grave") character, not the entire cluster that makes up the é. Using the startIndex ensures you'll get the entire grapheme cluster for any character.
    – leanne
    Aug 18, 2017 at 16:16
  • 3
    In Swift 4.0 each Unicode characters are counted by 1. Eg: "👩‍💻".count // Now: 1, Before: 2
    – selva
    Sep 29, 2017 at 6:50
  • 3
    How does one construct a String.Index from an integer, other than building a dummy string and using the .index method on it? I don't know if I'm missing something, but the docs don't say anything.
    – sudo
    Oct 10, 2017 at 20:43
  • 5
    @sudo, you have to be a little careful when constructing a String.Index with an integer because each Swift Character does not necessarily equal the same thing you mean with an integer. That said, you can pass an integer into the offsetBy parameter to create a String.Index. If you don't have a String, though, then you can't construct a String.Index (because Swift can only calculate the index if it knows what the previous characters in the string are). If you change the string then you must recalculate the index. You can't use the same String.Index on two different strings.
    – Suragch
    Oct 11, 2017 at 2:15

I appreciate this question and all the info with it. I have something in mind that's kind of a question and an answer when it comes to String.Index.

I'm trying to see if there is an O(1) way to access a Substring (or Character) inside a String because string.index(startIndex, offsetBy: 1) is O(n) speed if you look at the definition of index function. Of course we can do something like:

let characterArray = Array(string)

then access any position in the characterArray however SPACE complexity of this is n = length of string, O(n) so it's kind of a waste of space.

I was looking at Swift.String documentation in Xcode and there is a frozen public struct called Index. We can initialize is as:

let index = String.Index(encodedOffset: 0)

Then simply access or print any index in our String object as such:


Note: be careful not to go out of bounds`

This works and that's great but what is the run-time and space complexity of doing it this way? Is it any better?

  • 1
    String.Index(encodedOffset: 0) gives you the index based on a UTF-16 encoding - so it works in O(1) on the assumption that your chars are all UTF-16. It was deprecated in Swift 5 and replaced with the more explicit (String.Index(utf16Offset: l, in: s)). In my opinion this should have been a question rather than an answer e.g. "What does String.Index(encodedOffset: 0) do and why its runtime is O(1)?"
    – tanzolone
    Sep 26, 2021 at 6:52
func change(string: inout String) {

    var character: Character = .normal

    enum Character {
        case space
        case newLine
        case normal

    for i in stride(from: string.count - 1, through: 0, by: -1) {
        // first get index
        let index: String.Index?
        if i != 0 {
            index = string.index(after: string.index(string.startIndex, offsetBy: i - 1))
        } else {
            index = string.startIndex

        if string[index!] == "\n" {

            if character != .normal {

                if character == .newLine {
                    string.remove(at: index!)
                } else if character == .space {
                    let number = string.index(after: string.index(string.startIndex, offsetBy: i))
                    if string[number] == " " {
                        string.remove(at: number)
                    character = .newLine

            } else {
                character = .newLine

        } else if string[index!] == " " {

            if character != .normal {

                string.remove(at: index!)

            } else {
                character = .space

        } else {

            character = .normal



    // startIndex
    guard string.count > 0 else { return }
    if string[string.startIndex] == "\n" || string[string.startIndex] == " " {
        string.remove(at: string.startIndex)

    // endIndex - here is a little more complicated!
    guard string.count > 0 else { return }
    let index = string.index(before: string.endIndex)
    if string[index] == "\n" || string[index] == " " {
        string.remove(at: index)


Create a UITextView inside of a tableViewController. I used function: textViewDidChange and then checked for return-key-input. then if it detected return-key-input, delete the input of return key and dismiss keyboard.

func textViewDidChange(_ textView: UITextView) {
    if textView.text.contains("\n"){
        textView.text.remove(at: textView.text.index(before: textView.text.endIndex))

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