protocol ArrayLiteralConvertible A type that can be initialized using an array literal. An array literal is a simple way of expressing a list of values. Simply surround a comma-separated list of values, instances, or literals with square brackets to create an array literal. You can use an array literal anywhere an instance of an ArrayLiteralConvertible type is expected: as a value assigned to a variable or constant, as a parameter to a method or initializer, or even as the subject of a nonmutating operation like map(_:) or filter(_:). Arrays, sets, and option sets all conform to ArrayLiteralConvertible, and your own custom types can as well. Here's an example of creating a set and an array using array literals: let employeesSet: Set<String> = ["Amir", "Jihye", "Dave", "Alessia", "Dave"] print(employeesSet) // Prints "["Amir", "Dave", "Jihye", "Alessia"]" let employeesArray: [String] = ["Amir", "Jihye", "Dave", "Alessia", "Dave"] print(employeesArray) // Prints "["Amir", "Jihye", "Dave", "Alessia", "Dave"]" The Set and Array types each handle array literals in their own way to create new instances. In this case, the newly created set drops the duplicate value ("Dave") and doesn't maintain the order of the array literal's elements. The new array, on the other hand, matches the order and number of elements provided. Note: An array literal is not the same as an Array instance. You can't initialize a type that conforms to ArrayLiteralConvertible simply by assigning an existing array. let anotherSet: Set = employeesArray // error: cannot convert value of type '[String]' to specified type 'Set' Type Inference of Array Literals Whenever possible, Swift's compiler infers the full intended type of your array literal. Because Array is the default type for an array literal, without writing any other code, you can declare an array with a particular element type by providing one or more values. In this example, the compiler infers the full type of each array literal. let integers = [1, 2, 3] // 'integers' has type '[Int]' let strings = ["a", "b", "c"] // 'strings' has type '[String]' An empty array literal alone doesn't provide enough information for the compiler to infer the intended type of the Array instance. When using an empty array literal, specify the type of the variable or constant. var emptyArray: [Bool] = [] // 'emptyArray' has type '[Bool]' Because many functions and initializers fully specify the types of their parameters, you can often use an array literal with or without elements as a parameter. For example, the sum(_:) function shown here takes an Int array as a parameter: func sum(values: [Int]) -> Int { return values.reduce(0, combine: +) } let sumOfFour = sum([5, 10, 15, 20]) // 'sumOfFour' == 50 let sumOfNone = sum([]) // 'sumOfNone' == 0 When you call a function that does not fully specify its parameters' types, use the type-cast operator (as) to specify the type of an array literal. For example, the log(name:value:) function shown here has an unconstrained generic value parameter. func log<T>(name name: String, value: T) { print("\(name): \(value)") } log(name: "Four integers", value: [5, 10, 15, 20]) // Prints "Four integers: [5, 10, 15, 20]" log(name: "Zero integers", value: [] as [Int]) // Prints "Zero integers: []" Conforming to ArrayLiteralConvertible Add the capability to be initialized with an array literal to your own custom types by declaring an init(arrayLiteral:) initializer. The following example shows the array literal initializer for a hypothetical OrderedSet type, which has setlike semantics but maintains the order of its elements. struct OrderedSet<Element: Hashable>: Collection, SetAlgebra { // implementation details } extension OrderedSet: ArrayLiteralConvertible { init(arrayLiteral: Element...) { self.init() for element in arrayLiteral { self.append(element) } } } Inheritance View Protocol Hierarchy → Associated Types Element The type of the elements of an array literal. Import import Swift Initializers init(arrayLiteral:) Required Creates an instance initialized with the given elements. Declaration init(arrayLiteral elements: Self.Element...)