Nested Types
Nested Types
Enumerations are often created to support a specific class or structure’s functionality. Similarly, it can be convenient to define utility classes and structures purely for use within the context of a more complex type. To accomplish this, Swift enables you to define nested types, whereby you nest supporting enumerations, classes, and structures within the definition of the type they support.
To nest a type within another type, write its definition within the outer braces of the type it supports. Types can be nested to as many levels as are required.
Nested Types in Action
The example below defines a structure called BlackjackCard
, which models a playing card as used in the game of Blackjack. The BlackjackCard
structure contains two nested enumeration types called Suit
and Rank
.
In Blackjack, the Ace cards have a value of either one or eleven. This feature is represented by a structure called Values
, which is nested within the Rank
enumeration:
struct BlackjackCard {
// nested Suit enumeration
enum Suit: Character {
case spades = "♠", hearts = "♡", diamonds = "♢", clubs = "♣"
}
// nested Rank enumeration
enum Rank: Int {
case two = 2, three, four, five, six, seven, eight, nine, ten
case jack, queen, king, ace
struct Values {
let first: Int, second: Int?
}
var values: Values {
switch self {
case .ace:
return Values(first: 1, second: 11)
case .jack, .queen, .king:
return Values(first: 10, second: nil)
default:
return Values(first: self.rawValue, second: nil)
}
}
}
// BlackjackCard properties and methods
let rank: Rank, suit: Suit
var description: String {
var output = "suit is \(suit.rawValue),"
output += " value is \(rank.values.first)"
if let second = rank.values.second {
output += " or \(second)"
}
return output
}
}
The Suit
enumeration describes the four common playing card suits, together with a raw Character
value to represent their symbol.
The Rank
enumeration describes the thirteen possible playing card ranks, together with a raw Int
value to represent their face value. (This raw Int
value is not used for the Jack, Queen, King, and Ace cards.)
As mentioned above, the Rank
enumeration defines a further nested structure of its own, called Values
. This structure encapsulates the fact that most cards have one value, but the Ace card has two values. The Values
structure defines two properties to represent this:
first
, of typeInt
second
, of typeInt?
, or “optionalInt
”
Rank
also defines a computed property, values
, which returns an instance of the Values
structure. This computed property considers the rank of the card and initializes a new Values
instance with appropriate values based on its rank. It uses special values for jack
, queen
, king
, and ace
. For the numeric cards, it uses the rank’s raw Int
value.
The BlackjackCard
structure itself has two properties—rank
and suit
. It also defines a computed property called description
, which uses the values stored in rank
and suit
to build a description of the name and value of the card. The description
property uses optional binding to check whether there is a second value to display, and if so, inserts additional description detail for that second value.
Because BlackjackCard
is a structure with no custom initializers, it has an implicit memberwise initializer, as described in Memberwise Initializers for Structure Types. You can use this initializer to initialize a new constant called theAceOfSpades
:
let theAceOfSpades = BlackjackCard(rank: .ace, suit: .spades)
print("theAceOfSpades: \(theAceOfSpades.description)")
// Prints "theAceOfSpades: suit is ♠, value is 1 or 11"
Even though Rank
and Suit
are nested within BlackjackCard
, their type can be inferred from context, and so the initialization of this instance is able to refer to the enumeration cases by their case names (.ace
and .spades
) alone. In the example above, the description
property correctly reports that the Ace of Spades has a value of 1
or 11
.
Referring to Nested Types
To use a nested type outside of its definition context, prefix its name with the name of the type it is nested within:
let heartsSymbol = BlackjackCard.Suit.hearts.rawValue
// heartsSymbol is "♡"
For the example above, this enables the names of Suit
, Rank
, and Values
to be kept deliberately short, because their names are naturally qualified by the context in which they are defined.