32

How do I avoid using the ! operation doing a force unwrap as using this is usually a bad option.

What is the better option with code like the following where using it makes the code look simpler and because of the if check the variable ! is called on will never be nil and so cannot crash.

My instructor introduced us to the bang(!) operator and then told us to never use it again. Telling us why of course, that it will crash our app if the optional is nil.

However I find myself in situations like these where the bang operator seems to be the most concise and safe option.

func fullName() -> String {
    if middleName == nil {
        return "\(firstName) \(lastName)"
    }else{
        return "\(firstName) \(middleName!) \(lastName)"
    }
}

Is there a better way to do something like this?

Also, here's the full class if anybody is wondering.

class CPerson{
    var firstName: String
    var middleName: String?
    var lastName: String

    init(firstName: String, middleName: String?, lastName: String) {
        self.firstName = firstName
        self.middleName = middleName
        self.lastName = lastName
    }
    convenience init(firstName: String, lastName: String) {
        self.init(firstName: firstName, middleName: nil, lastName: lastName)
    }
    func fullName() -> String {
        if middleName == nil {
            return "\(firstName) \(lastName)"
        }else{
            return "\(firstName) \(middleName!) \(lastName)"
        }
    }
}

My instructor said "If I see you using the bang operator, we're going to fight" O_O

1
  • Please edit to include both versions of code -- with and without "bang" Sep 13, 2016 at 12:06

5 Answers 5

28

Use the if let or guard constructs:

func fullName() -> String {
    if let middleName = middleName {
        return "\(firstName) \(middleName) \(lastName)"

    } else {
        return "\(firstName) \(lastName)"
    }
}

func fullName() -> String {
    guard let middleName = middleName else {
        return "\(firstName) \(lastName)"
    }
    return "\(firstName) \(middleName) \(lastName)"
}

I've put the guard statement in for completeness but as others have commented this is more commonly used in an error/failure case.

I would also advise against using string interpolation for Strings. They are already strings, there is no need to use the description of each name in a new string.

Consider return firstName + " " + lastName. See Difference between String interpolation and String initializer in Swift for cases when string interpolation could return an unexpected result.

15
  • 8
    Be very careful with the string + " " + string syntax. This can cause compile times to explode. Chained + operators very often lead to O(n!) time to figure out the correct types. It's probably the most common cause of massive compile times I see in the wild. Interpolation compiles much, much faster.
    – Rob Napier
    Sep 12, 2016 at 17:02
  • 1
    @MattHorst Did you see my update about guard? I put it in to show how it works with the disclaimer that it is more commonly used in an error/failure case.
    – JAL
    Sep 12, 2016 at 20:04
  • 2
    @Honey The + function is heavily overloaded to handle many different types and protocols. The compiler winds up searching through many combinations of types trying to find the one that matches the types provided. See swiftdoc.org/v2.2/operator/pls In some cases it works out fine, especially in small code snippets, but it is a very, very common cause of combinatorial explosion in the type checker. Not saying it should be this way; it's a problem with the compiler. But just last week I had two different teams complain about crazy build times, and it turned out to be a + chain.
    – Rob Napier
    Sep 13, 2016 at 14:43
  • 1
    If it doesn't cause you trouble, then it's fine, but if your build times seem really sluggish, it's always the first thing I look for.
    – Rob Napier
    Sep 13, 2016 at 14:44
  • 1
    @Honey It can actually be a bit worse than that. For example, it can try converting each element to an Optional (since this can be done implicitly), and then it has to figure out if String? conforms to any of the given protocols. This is why many implicit conversions were removed & you're not allowed to create new ones. Every possible implicit conversion combination has to be chased down to see if it could make this thing type-check. I believe this is fixable for the trivial case (just concatenating known static strings), but the least cleverness and it can explode.
    – Rob Napier
    Sep 13, 2016 at 15:09
17

Your instructor is, broadly speaking, correct. Definitely in this case. There's no reason for making this so special case and forcing duplicated code.

func fullName() -> String {
    return [firstName, middleName, lastName] // The components
        .flatMap{$0}            // Remove any that are nil
        .joined(separator: " ") // Join them up
}

This just joins all the non-nil parts of the name with spaces. The other answers here are also fine, but they don't scale as well to adding more optional pieces (like a "Mr." title or "Jr." suffix).

(This is in Swift3 syntax. Swift 2 is very similar, it's joinWithSeparator(_:) instead.)

5
  • 1
    Thank you Rob. If I could accept two answers, I would also accept yours. Sep 12, 2016 at 18:04
  • 1
    Obviously this restricts what kind of formatting you have. If you want to output "Smith, John James" or "Smith, John", then this doesn't work. And if a small change in the specification requires a large change in the code, then your code might not be right. With the original code, that change would be trivial.
    – gnasher729
    Sep 12, 2016 at 22:48
  • @gnasher729 True. It is difficult to write this code in a way that is robust against many different changes that might happen. One way favors adding random new fields (particularly optional ones), but fails if the format becomes inconsistent. The other favors changes in the format in random ways, but becomes very complex to handle many optional fields. A good example of how it making something easy to extend is often much more difficult than it sounds; there is no one answer that covers all the bases.
    – Rob Napier
    Sep 12, 2016 at 22:58
  • so would you never ever want your app to crash? Or you would never force unwrap?? Can you make your answer more generic? Won't you force unwrap IBOutlets?
    – mfaani
    Sep 13, 2016 at 13:16
  • 3
    @Honey There are many places I would crash the app on purpose, but I use precondition or fatalError for those cases in order to make my intent clear and to provide an explanation (especially since I use custom wrappers that automatically log prior to crash to Loggly and Crashlytics; you can't do that with !). ! will crash, but gives you little context to work with in the crash report. IBOutlet should generally be implicitly unwrapped optionals (UILabel!) so there is no need to add a ! at usage. I'm not saying that you would never ever force unwrap, but very rare.
    – Rob Napier
    Sep 13, 2016 at 14:03
5

What you did will work and indeed, once you know it's not nil, using ! is a correct way to force unwrap it.

However, Swift has feature called Optional Binding (https://developer.apple.com/library/ios/documentation/Swift/Conceptual/Swift_Programming_Language/TheBasics.html).

In your case it would be like this:

func fullName() -> String {
        if let middle = middleName {
            return "\(firstName) \(middleName) \(lastName)"
        } else {
            return "\(firstName) \(lastName)"
        }
    }

What the optional binding does is, as Apple says in the above link, "You use optional binding to find out whether an optional contains a value, and if so, to make that value available as a temporary constant or variable". So inside your brackets you have access to middle and can use it as a known non-nil.

You can also chain these so that you have access to multiple temporary constants and don't need to chain if statements. And you can even use a where clause to evaluate an optional condition. Again from Apple's docs above:

if let firstNumber = Int("4"), secondNumber = Int("42") where firstNumber < secondNumber {
    print("\(firstNumber) < \(secondNumber)")
}
1
  • 2
    I agree with the other posts that you don't need to use a if check like this, for this case of string concatenation. However, I do think how I have it above is better than using guard. To me guard would imply an error/failure case. Sep 12, 2016 at 17:01
1

In this case, your instructor is wrong. Your function is absolutely safe. middleName will not change from not nil to nil behind your back. Your function may crash if you make some spelling error, and type the name of a different variable instead of middleName, but that would be a bug anyway and the crash would lead you to the bug.

But usually "if let ... " is the better way to handle this, because it combines the test and the unwrapping.

There are also situations where you don't say "if it's nil, it will crash, that's bad" but "if it's nil then I want it to crash" (usually because you know it can only be nil if there is a bug somewhere in your code). In that case ! does exactly what you want.

2
  • 5
    If there's a "better way to handle it" then it would seem his instructor isn't wrong after all..
    – Insane
    Sep 12, 2016 at 22:59
  • He says "usually" there's a "better way" and "in this case" the instructor is wrong.
    – Andy
    Aug 7, 2019 at 15:00
1

Before unwrapping an optional variable you should must check for nil otherwise your app will crash if variable contain nil. And checks can be performed in several ways like:

  1. if let
  2. guard
  3. if-else
  4. using ternary operator
  5. Nil coalescing operator

And which one to use completely depends on requirement.

You can just replace this code

if middleName == nil {
    return "\(firstName) \(lastName)"
}else{
    return "\(firstName) \(middleName!) \(lastName)"
}

by

return "\(firstName)\(middleName != nil ? " \(middleName!) " : " " )\(lastName)"

OR

you can also use Nil coalescing operator (a ?? b) unwraps an optional a if it contains a value, or returns a default value b if a is nil.

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