How to express Strings in Swift using Unicode hexadecimal values (UTF-16)

from your Hex "0x1F52D" to actual Emoji

let c = 0x1F602

next step would possibly getting an Uint32 from your Hex

let intEmoji = UnicodeScalar(c!).value

from this you can do something like

titleLabel.text = String(UnicodeScalar(intEmoji)!)

here you have a "😂"

it work with range of hexadecimal too

let emojiRanges = [
            0x1F600...0x1F636,
            0x1F645...0x1F64F,
            0x1F910...0x1F91F,
            0x1F30D...0x1F52D
        ]

        for range in emojiRanges {
            for i in range {
                let c = UnicodeScalar(i)!.value
                data.append(c)
            }
        }

to get multiple UInt32 from your Hex range for exemple


Character

The Swift syntax for forming a hexadecimal code point is

\u{n}

where n is a hexadecimal number up to 8 digits long. The valid range for a Unicode scalar is U+0 to U+D7FF and U+E000 to U+10FFFF inclusive. (The U+D800 to U+DFFF range is for surrogate pairs, which are not scalars themselves, but are used in UTF-16 for encoding the higher value scalars.)

Examples:

// The following forms are equivalent. They all produce "C". 
let char1: Character = "\u{43}"
let char2: Character = "\u{0043}"
let char3: Character = "\u{00000043}"

// Higher value Unicode scalars are done similarly
let char4: Character = "\u{203C}" // ‼ (DOUBLE EXCLAMATION MARK character)
let char5: Character = "\u{1F431}" // 🐱 (cat emoji)

// Characters can be made up of multiple scalars
let char7: Character = "\u{65}\u{301}" // é = "e" + accent mark
let char8: Character = "\u{65}\u{301}\u{20DD}" // é⃝ = "e" + accent mark + circle

Notes:

  • Leading zeros can be added or omitted
  • Characters are known as extended grapheme clusters. Even when they are composed of multiple scalars, they are still considered a single character. What is key is that they appear to be a single character (grapheme) to the user.
  • TODO: How to convert surrogate pair to Unicode scalar in Swift

String

Strings are composed of characters. See the following examples for some ways to form them using hexadecimal code points.

Examples:

var string1 = "\u{0043}\u{0061}\u{0074}\u{203C}\u{1F431}" // Cat‼🐱

// pass an array of characters to a String initializer
let catCharacters: [Character] = ["\u{0043}", "\u{0061}", "\u{0074}", "\u{203C}", "\u{1F431}"] // ["C", "a", "t", "‼", "🐱"]
let string2 = String(catCharacters) // Cat‼🐱

Converting Hex Values at Runtime

At runtime you can convert hexadecimal or Int values into a Character or String by first converting it to a UnicodeScalar.

Examples:

// hex values
let value0: UInt8  = 0x43     // 67
let value1: UInt16 = 0x203C   // 8252
let value2: UInt32 = 0x1F431  // 128049

// convert hex to UnicodeScalar
let scalar0 = UnicodeScalar(value0)
// make sure that UInt16 and UInt32 form valid Unicode values
guard
    let scalar1 = UnicodeScalar(value1),
    let scalar2 = UnicodeScalar(value2) else {
    return
}

// convert to Character
let character0 = Character(scalar0) // C
let character1 = Character(scalar1) // ‼
let character2 = Character(scalar2) // 🐱

// convert to String
let string0 = String(scalar0) // C
let string1 = String(scalar1) // ‼
let string2 = String(scalar2) // 🐱

// convert hex array to String
let myHexArray = [0x43, 0x61, 0x74, 0x203C, 0x1F431] // an Int array
var myString = ""
for hexValue in myHexArray {
    if let scalar = UnicodeScalar(hexValue) {
        myString.append(Character(scalar))
    }
}
print(myString) // Cat‼🐱

Further reading

  • Strings and Characters docs
  • Glossary of Unicode Terms
  • Strings in Swift
  • Working with Unicode code points in Swift