How to convert Data to hex string in swift
This code extends the Data
type with a computed property. It iterates through the bytes of data and concatenates the byte's hex representation to the result:
extension Data {
var hexDescription: String {
return reduce("") {$0 + String(format: "%02x", $1)}
}
}
A simple implementation (taken from How to hash NSString with SHA1 in Swift?, with an additional option for uppercase output) would be
extension Data {
struct HexEncodingOptions: OptionSet {
let rawValue: Int
static let upperCase = HexEncodingOptions(rawValue: 1 << 0)
}
func hexEncodedString(options: HexEncodingOptions = []) -> String {
let format = options.contains(.upperCase) ? "%02hhX" : "%02hhx"
return self.map { String(format: format, $0) }.joined()
}
}
I chose a hexEncodedString(options:)
method in the style of the existing method base64EncodedString(options:)
.
Data
conforms to the Collection
protocol, therefore one can use
map()
to map each byte to the corresponding hex string.
The %02x
format prints the argument in base 16, filled up to two digits
with a leading zero if necessary. The hh
modifier causes the argument
(which is passed as an integer on the stack) to be treated as a one byte
quantity. One could omit the modifier here because $0
is an unsigned
number (UInt8
) and no sign-extension will occur, but it does no harm leaving
it in.
The result is then joined to a single string.
Example:
let data = Data([0, 1, 127, 128, 255])
// For Swift < 4.2 use:
// let data = Data(bytes: [0, 1, 127, 128, 255])
print(data.hexEncodedString()) // 00017f80ff
print(data.hexEncodedString(options: .upperCase)) // 00017F80FF
The following implementation is faster by a factor about 50
(tested with 1000 random bytes). It is inspired to
RenniePet's solution
and Nick Moore's solution, but takes advantage of
String(unsafeUninitializedCapacity:initializingUTF8With:)
which was introduced with Swift 5.3/Xcode 12 and is available on macOS 11 and iOS 14 or newer.
This method allows to create a Swift string from UTF-8 units efficiently, without unnecessary copying or reallocations.
An alternative implementation for older macOS/iOS versions is also provided.
extension Data {
struct HexEncodingOptions: OptionSet {
let rawValue: Int
static let upperCase = HexEncodingOptions(rawValue: 1 << 0)
}
func hexEncodedString(options: HexEncodingOptions = []) -> String {
let hexDigits = options.contains(.upperCase) ? "0123456789ABCDEF" : "0123456789abcdef"
if #available(macOS 11.0, iOS 14.0, watchOS 7.0, tvOS 14.0, *) {
let utf8Digits = Array(hexDigits.utf8)
return String(unsafeUninitializedCapacity: 2 * self.count) { (ptr) -> Int in
var p = ptr.baseAddress!
for byte in self {
p[0] = utf8Digits[Int(byte / 16)]
p[1] = utf8Digits[Int(byte % 16)]
p += 2
}
return 2 * self.count
}
} else {
let utf16Digits = Array(hexDigits.utf16)
var chars: [unichar] = []
chars.reserveCapacity(2 * self.count)
for byte in self {
chars.append(utf16Digits[Int(byte / 16)])
chars.append(utf16Digits[Int(byte % 16)])
}
return String(utf16CodeUnits: chars, count: chars.count)
}
}
}
My version. It's about 10 times faster than the [original] accepted answer by Martin R.
public extension Data {
private static let hexAlphabet = Array("0123456789abcdef".unicodeScalars)
func hexStringEncoded() -> String {
String(reduce(into: "".unicodeScalars) { result, value in
result.append(Self.hexAlphabet[Int(value / 0x10)])
result.append(Self.hexAlphabet[Int(value % 0x10)])
})
}
}