Separating CamelCase string into space-separated words in Swift

Question

I would like to separate a CamelCase string into space-separated words in a new string. Here is what I have so far:

var camelCaps: String {
    guard self.count > 0 else { return self }
    var newString: String = ""

    let uppercase = CharacterSet.uppercaseLetters
    let first = self.unicodeScalars.first!
    newString.append(Character(first))
    for scalar in self.unicodeScalars.dropFirst() {
        if uppercase.contains(scalar) {
            newString.append(" ")
        }
        let character = Character(scalar)
        newString.append(character)
    }

    return newString
}

let aCamelCaps = "aCamelCaps"
let camelCapped = aCamelCaps.camelCaps // Produce: "a Camel Caps"

let anotherCamelCaps = "ÄnotherCamelCaps"
let anotherCamelCapped = anotherCamelCaps.camelCaps // "Änother Camel Caps"

I'm inclined to suspect that this may not be the most efficient way to convert to space-separated words, if I call it in a tight loop, or 1000's of times. Are there more efficient ways to do this in Swift?

[Edit 1:] The solution I require should remain general for Unicode scalars, not specific to Roman ASCII "A..Z".

[Edit 2:] The solution should also skip the first letter, i.e. not prepend a space before the first letter.

[Edit 3:] Updated for Swift 4 syntax, and added caching of uppercaseLetters, which improves performance in very long strings and tight loops.

Answer 1

extension String {
    func camelCaseToWords() -> String {
        return unicodeScalars.dropFirst().reduce(String(prefix(1))) {
            return CharacterSet.uppercaseLetters.contains($1)
                ? $0 + " " + String($1)
                : $0 + String($1)
        }
    }
}
print("ÄnotherCamelCaps".camelCaseToWords()) // Änother Camel Caps

May be helpful for someone :)

Answer 2

One Line Solution

I concur with @aircraft, regular expressions can solve this problem in one LOC!

// Swift 5 (and probably 4?)
extension String {
    func titleCase() -> String {
        return self
            .replacingOccurrences(of: "([A-Z])",
                                  with: " $1",
                                  options: .regularExpression,
                                  range: range(of: self))
            .trimmingCharacters(in: .whitespacesAndNewlines)
            .capitalized // If input is in llamaCase
    }
}

Props to this JS answer.

P.S. I have a gist for snake_case → CamelCase here.

P.P.S. I updated this for New Swift (currently 5.1), then saw @busta's answer, and swapped out my startIndex..<endIndex for his range(of: self). Credit where it's due y'all!

Answer 3

a better full swifty solution... based on AmitaiB answer

extension String {
    func titlecased() -> String {
        return self.replacingOccurrences(of: "([A-Z])", with: " $1", options: .regularExpression, range: self.range(of: self))
            .trimmingCharacters(in: .whitespacesAndNewlines)
            .capitalized
    }
}

Answer 4

I might be late but I want to share a little improvement to Augustine P A answer or Leo Dabus comment.
Basically, that code won't work properly if we are using upper camel case notation (like "DuckDuckGo") because it will add a space at the beginning of the string.
To address this issue, this is a slightly modified version of the code, using Swift 3.x, and it's compatible with both upper and lower came case:

extension String {

    func camelCaseToWords() -> String {
        return unicodeScalars.reduce("") {
            if CharacterSet.uppercaseLetters.contains($1) {
                if $0.count > 0 {
                    return ($0 + " " + String($1))
                }
            }
            return $0 + String($1)
        }
    }
}

Answer 5

As far as I tested on my old MacBook, your code seems to be efficient enough for short strings:

import Foundation

extension String {

    var camelCaps: String {
        var newString: String = ""

        let upperCase = CharacterSet.uppercaseLetters
        for scalar in self.unicodeScalars {
            if upperCase.contains(scalar) {
                newString.append(" ")
            }
            let character = Character(scalar)
            newString.append(character)
        }

        return newString
    }

    var camelCaps2: String {
        var newString: String = ""

        let upperCase = CharacterSet.uppercaseLetters
        var range = self.startIndex..<self.endIndex
        while let foundRange = self.rangeOfCharacter(from: upperCase,range: range) {
            newString += self.substring(with: range.lowerBound..<foundRange.lowerBound)
            newString += " "
            newString += self.substring(with: foundRange)

            range = foundRange.upperBound..<self.endIndex
        }
        newString += self.substring(with: range)

        return newString
    }

    var camelCaps3: String {
        struct My {
            static let regex = try! NSRegularExpression(pattern: "[A-Z]")
        }
        return My.regex.stringByReplacingMatches(in: self, range: NSRange(0..<self.utf16.count), withTemplate: " $0")
    }
}
let aCamelCaps = "aCamelCaps"

assert(aCamelCaps.camelCaps == aCamelCaps.camelCaps2)
assert(aCamelCaps.camelCaps == aCamelCaps.camelCaps3)

let t0 = Date().timeIntervalSinceReferenceDate

for _ in 0..<1_000_000 {
    let aCamelCaps = "aCamelCaps"

    let camelCapped = aCamelCaps.camelCaps
}

let t1 = Date().timeIntervalSinceReferenceDate
print(t1-t0) //->4.78703999519348

for _ in 0..<1_000_000 {
    let aCamelCaps = "aCamelCaps"

    let camelCapped = aCamelCaps.camelCaps2
}

let t2 = Date().timeIntervalSinceReferenceDate
print(t2-t1) //->10.5831440091133

for _ in 0..<1_000_000 {
    let aCamelCaps = "aCamelCaps"

    let camelCapped = aCamelCaps.camelCaps3
}

let t3 = Date().timeIntervalSinceReferenceDate
print(t3-t2) //->14.2085000276566

(Do not try to test the code above in the Playground. The numbers are taken from a single trial executed as a CommandLine app.)

Answer 6

extension String {
    func titlecased() -> String {
        return self
            .replacingOccurrences(of: "([a-z])([A-Z](?=[A-Z])[a-z]*)", with: "$1 $2", options: .regularExpression)
            .replacingOccurrences(of: "([A-Z])([A-Z][a-z])", with: "$1 $2", options: .regularExpression)
            .replacingOccurrences(of: "([a-z])([A-Z][a-z])", with: "$1 $2", options: .regularExpression)
            .replacingOccurrences(of: "([a-z])([A-Z][a-z])", with: "$1 $2", options: .regularExpression)
    }
}

In

 "ThisStringHasNoSpacesButItDoesHaveCapitals"
 "IAmNotAGoat"
 "LOLThatsHilarious!"
 "ThisIsASMSMessage"

Out

"This String Has No Spaces But It Does Have Capitals" 
"I Am Not A Goat" 
"LOL Thats Hilarious!" 
"This Is ASMS Message" // (Difficult tohandle single letter words when they are next to acronyms.)

enter link description here

Answer 7

I can do this extension in less lines of code (and without a CharacterSet), but yes, you basically have to enumerate each String if you want to insert spaces in front of capital letters.

extension String {
    var differentCamelCaps: String {
        var newString: String = ""
        for eachCharacter in self {
            if "A"..."Z" ~= eachCharacter {
                newString.append(" ")
            }
            newString.append(eachCharacter)
        }
        return newString
    }
}

print("ÄnotherCamelCaps".differentCamelCaps) // Änother Camel Caps

Answer 8

Swift 5 solution

extension String {

    func camelCaseToWords() -> String {
        return unicodeScalars.reduce("") {
            if CharacterSet.uppercaseLetters.contains($1) {
                if $0.count > 0 {
                    return ($0 + " " + String($1))
                }
            }
            return $0 + String($1)
        }
    }
}

Answer 9

If you want to make it more efficient, you can use Regular Expressions.

 extension String {
    func replace(regex: NSRegularExpression, with replacer: (_ match:String)->String) -> String {
    let str = self as NSString
    let ret = str.mutableCopy() as! NSMutableString

    let matches = regex.matches(in: str as String, options: [], range: NSMakeRange(0, str.length))
    for match in matches.reversed() {
        let original = str.substring(with: match.range)
        let replacement = replacer(original)
        ret.replaceCharacters(in: match.range, with: replacement)
    }
        return ret as String
    }
}

let camelCaps = "aCamelCaps"  // there are 3 Capital character
let pattern = "[A-Z]"
let regular = try!NSRegularExpression(pattern: pattern)
let camelCapped:String = camelCaps.replace(regex: regular) { " \($0)" }
print("Uppercase characters replaced: \(camelCapped)")

Answer 10

Here's what I came up with using Unicode character classes: (Swift 5)

extension String {
    var titleCased: String {
        self
            .replacingOccurrences(of: "(\\p{UppercaseLetter}\\p{LowercaseLetter}|\\p{UppercaseLetter}+(?=\\p{UppercaseLetter}))",
                                  with: " $1",
                                  options: .regularExpression,
                                  range: range(of: self)
            )
            .capitalized
    }
}

Output:

fillPath                ➝ Fill Path
ThisStringHasNoSpaces   ➝ This String Has No Spaces
IAmNotAGoat             ➝ I Am Not A Goat
LOLThatsHilarious!      ➝ Lol Thats Hilarious!
ThisIsASMSMessage       ➝ This Is Asms Message

Answer 11

Swift way:

extension String {
    var titlecased: String {
        map { ($0.isUppercase ? " " : "") + String($0) }
            .joined(separator: "")
            .trimmingCharacters(in: .whitespaces)
    }
}

Answer 12

Swift 5+

Small style improvements on previous answers

import Foundation

extension String {
    func camelCaseToWords() -> String {
        unicodeScalars.reduce("") {
            guard CharacterSet.uppercaseLetters.contains($1),
                  $0.count > 0
            else { return $0 + String($1) }
            return ($0 + " " + String($1))
        }
    }
}

Using guard let statements is usually recommended, as they provide an "early exit" for non matching cases and decrease the overall nesting levels of your code (which usually improves readability quite a lot... and remember, readability counts!)

Answer 13

Solution with REGEX

let camelCase = "SomeATMInTheShop"
let regexPattern = "[A-Z-_&](?=[a-z0-9]+)|[A-Z-_&]+(?![a-z0-9])"
let newValue = camelCase.replacingOccurrences(of: regexPattern, with: " $0", options: .regularExpression, range: nil)

Otuput ==> Some ATM In The Shop