struct String.CharacterView A view of a string's contents as a collection of characters. In Swift, every string provides a view of its contents as characters. In this view, many individual characters---for example, "é", "김", and "🇮🇳"---can be made up of multiple Unicode code points. These code points are combined by Unicode's boundary algorithms into extended grapheme clusters, represented by the Character type. Each element of a CharacterView collection is a Character instance. let flowers = "Flowers 💐" for c in flowers { print(c) } // F // l // o // w // e // r // s // // 💐 You can convert a String.CharacterView instance back into a string using the String type's init(_:) initializer. let name = "Marie Curie" if let firstSpace = name.characters.index(of: " ") { let firstName = String(name.characters.prefix(upTo: firstSpace)) print(firstName) } // Prints "Marie" Inheritance BidirectionalCollection, BidirectionalIndexable, Collection, Indexable, IndexableBase, RangeReplaceableCollection, RangeReplaceableIndexable, Sequence View Protocol Hierarchy → Associated Types IndexDistance = Int A type used to represent the number of steps between two indices, where one value is reachable from the other. In Swift, reachability refers to the ability to produce one value from the other through zero or more applications of index(after:). Iterator = IndexingIterator<String.CharacterView> Type alias inferred. Element = Character Type alias inferred. Index = String.CharacterView.Index Type alias inferred. SubSequence = String.CharacterView Type alias inferred. Nested Types String.CharacterView.Index Import import Swift Initializers init() Creates an empty character view. Declaration init() init(_: String) Creates a view of the given string. Declaration init(_ text: String) init<S : Sequence where S.Iterator.Element == Character>(_: S) Creates a new character view containing the characters in the given sequence. characters: A sequence of characters. Declaration init<S : Sequence where S.Iterator.Element == Character>(_ characters: S) init(_:) Creates a new instance of a collection containing the elements of a sequence. elements: The sequence of elements for the new collection. Declaration init<S : Sequence where S.Iterator.Element == Iterator.Element>(_ elements: S) Declared In RangeReplaceableCollection init(repeating:count:) Creates a new collection containing the specified number of a single, repeated value. Here's an example of creating an array initialized with five strings containing the letter Z. let fiveZs = Array(repeating: "Z", count: 5) print(fiveZs) // Prints "["Z", "Z", "Z", "Z", "Z"]" Parameters: repeatedValue: The element to repeat. count: The number of times to repeat the value passed in the repeating parameter. count must be zero or greater. Declaration init(repeating repeatedValue: Character, count: Int) Declared In RangeReplaceableCollection Instance Variables var count: String.CharacterView.IndexDistance The number of elements in the collection. Complexity: O(1) if the collection conforms to RandomAccessCollection; otherwise, O(n), where n is the length of the collection. Declaration var count: String.CharacterView.IndexDistance { get } Declared In BidirectionalCollection , RangeReplaceableCollection , Collection var endIndex: String.CharacterView.Index A character view's "past the end" position---that is, the position one greater than the last valid subscript argument. In an empty character view, endIndex is equal to startIndex. Declaration var endIndex: String.CharacterView.Index { get } var first: Character? The first element of the collection. If the collection is empty, the value of this property is nil. let numbers = [10, 20, 30, 40, 50] if let firstNumber = numbers.first { print(firstNumber) } // Prints "10" Declaration var first: Character? { get } Declared In BidirectionalCollection , RangeReplaceableCollection , Collection var isEmpty: Bool A Boolean value indicating whether the collection is empty. When you need to check whether your collection is empty, use the isEmpty property instead of checking that the count property is equal to zero. For collections that don't conform to RandomAccessCollection, accessing the count property iterates through the elements of the collection. let horseName = "Silver" if horseName.characters.isEmpty { print("I've been through the desert on a horse with no name.") } else { print("Hi ho, \(horseName)!") } // Prints "Hi ho, Silver!") Complexity: O(1) Declaration var isEmpty: Bool { get } Declared In BidirectionalCollection , RangeReplaceableCollection , Collection var last: Character? The last element of the collection. If the collection is empty, the value of this property is nil. let numbers = [10, 20, 30, 40, 50] if let lastNumber = numbers.last { print(lastNumber) } // Prints "50" Declaration var last: Character? { get } Declared In BidirectionalCollection var lazy: LazyBidirectionalCollection<String.CharacterView> A view onto this collection that provides lazy implementations of normally eager operations, such as map and filter. Use the lazy property when chaining operations to prevent intermediate operations from allocating storage, or when you only need a part of the final collection to avoid unnecessary computation. See Also: LazySequenceProtocol, LazyCollectionProtocol. Declaration var lazy: LazyBidirectionalCollection<String.CharacterView> { get } Declared In BidirectionalCollection var startIndex: String.CharacterView.Index The position of the first character in a nonempty character view. In an empty character view, startIndex is equal to endIndex. Declaration var startIndex: String.CharacterView.Index { get } var underestimatedCount: Int A value less than or equal to the number of elements in the collection. Complexity: O(1) if the collection conforms to RandomAccessCollection; otherwise, O(n), where n is the length of the collection. Declaration var underestimatedCount: Int { get } Declared In BidirectionalCollection , RangeReplaceableCollection , Collection , Sequence Subscripts subscript(_: ClosedRange<String.CharacterView.Index>) Accesses a contiguous subrange of the collection's elements. The accessed slice uses the same indices for the same elements as the original collection. Always use the slice's startIndex property instead of assuming that its indices start at a particular value. This example demonstrates getting a slice of an array of strings, finding the index of one of the strings in the slice, and then using that index in the original array. let streets = ["Adams", "Bryant", "Channing", "Douglas", "Evarts"] let streetsSlice = streets[2 ..< streets.endIndex] print(streetsSlice) // Prints "["Channing", "Douglas", "Evarts"]" let index = streetsSlice.index(of: "Evarts") // 4 print(streets[index!]) // Prints "Evarts" bounds: A range of the collection's indices. The bounds of the range must be valid indices of the collection. Declaration subscript(bounds: ClosedRange<String.CharacterView.Index>) -> String.CharacterView { get } Declared In BidirectionalCollection, RangeReplaceableCollection, BidirectionalIndexable, Collection, RangeReplaceableIndexable, Indexable subscript(_: Range<String.CharacterView.Index>) Accesses the characters in the given range. The example below uses this subscript to access the characters up to, but not including, the first comma (",") in the string. let str = "All this happened, more or less." let i = str.characters.index(of: ",")! let substring = str.characters[str.characters.startIndex ..< i] print(String(substring)) // Prints "All this happened" Complexity: O(n) if the underlying string is bridged from Objective-C, where n is the length of the string; otherwise, O(1). Declaration subscript(bounds: Range<String.CharacterView.Index>) -> String.CharacterView { get } subscript(_: String.CharacterView.Index) Accesses the character at the given position. The following example searches a string's character view for a capital letter and then prints the character at the found index: let greeting = "Hello, friend!" if let i = greeting.characters.index(where: { "A"..."Z" ~= $0 }) { print("First capital letter: \(greeting.characters[i])") } // Prints "First capital letter: H" position: A valid index of the character view. position must be less than the view's end index. Declaration subscript(i: String.CharacterView.Index) -> Character { get } Instance Methods mutating func append(_:) Appends the given character to the character view. c: The character to append to the character view. Declaration mutating func append(_ c: Character) Declared In String.CharacterView, RangeReplaceableCollection mutating func append(contentsOf:) Appends the characters in the given sequence to the character view. newElements: A sequence of characters. Declaration mutating func append<S : Sequence where S.Iterator.Element == Character>(contentsOf newElements: S) Declared In String.CharacterView, RangeReplaceableCollection func contains(_:) Returns a Boolean value indicating whether the sequence contains the given element. This example checks to see whether a favorite actor is in an array storing a movie's cast. let cast = ["Vivien", "Marlon", "Kim", "Karl"] print(cast.contains("Marlon")) // Prints "true" print(cast.contains("James")) // Prints "false" element: The element to find in the sequence. Returns: true if the element was found in the sequence; otherwise, false. Declaration func contains(_ element: Character) -> Bool Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence func contains(where:) Returns a Boolean value indicating whether the sequence contains an element that satisfies the given predicate. You can use the predicate to check for an element of a type that doesn't conform to the Equatable protocol, such as the HTTPResponse enumeration in this example. enum HTTPResponse { case ok case error(Int) } let lastThreeResponses: [HTTPResponse] = [.ok, .ok, .error(404)] let hadError = lastThreeResponses.contains { element in if case .error = element { return true } else { return false } } // 'hadError' == true Alternatively, a predicate can be satisfied by a range of Equatable elements or a general condition. This example shows how you can check an array for an expense greater than $100. let expenses = [21.37, 55.21, 9.32, 10.18, 388.77, 11.41] let hasBigPurchase = expenses.contains { $0 > 100 } // 'hasBigPurchase' == true predicate: A closure that takes an element of the sequence as its argument and returns a Boolean value that indicates whether the passed element represents a match. Returns: true if the sequence contains an element that satisfies predicate; otherwise, false. Declaration func contains(where predicate: (Character) throws -> Bool) rethrows -> Bool Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence func distance(from:to:) Returns the distance between two indices. Unless the collection conforms to the BidirectionalCollection protocol, start must be less than or equal to end. Parameters: start: A valid index of the collection. end: Another valid index of the collection. If end is equal to start, the result is zero. Returns: The distance between start and end. The result can be negative only if the collection conforms to the BidirectionalCollection protocol. Complexity: O(1) if the collection conforms to RandomAccessCollection; otherwise, O(n), where n is the resulting distance. Declaration func distance(from start: String.CharacterView.Index, to end: String.CharacterView.Index) -> String.CharacterView.IndexDistance Declared In BidirectionalCollection, RangeReplaceableCollection, BidirectionalIndexable, Collection, RangeReplaceableIndexable, Indexable func dropFirst() Returns a subsequence containing all but the first element of the sequence. The following example drops the first element from an array of integers. let numbers = [1, 2, 3, 4, 5] print(numbers.dropFirst()) // Prints "[2, 3, 4, 5]" If the sequence has no elements, the result is an empty subsequence. let empty: [Int] = [] print(empty.dropFirst()) // Prints "[]" Returns: A subsequence starting after the first element of the sequence. Complexity: O(1) Declaration func dropFirst() -> String.CharacterView Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence func dropFirst(_:) Returns a subsequence containing all but the given number of initial elements. If the number of elements to drop exceeds the number of elements in the collection, the result is an empty subsequence. let numbers = [1, 2, 3, 4, 5] print(numbers.dropFirst(2)) // Prints "[3, 4, 5]" print(numbers.dropFirst(10)) // Prints "[]" n: The number of elements to drop from the beginning of the collection. n must be greater than or equal to zero. Returns: A subsequence starting after the specified number of elements. Complexity: O(n), where n is the number of elements to drop from the beginning of the collection. Declaration func dropFirst(_ n: Int) -> String.CharacterView Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence func dropLast() Returns a subsequence containing all but the last element of the sequence. The sequence must be finite. If the sequence has no elements, the result is an empty subsequence. let numbers = [1, 2, 3, 4, 5] print(numbers.dropLast()) // Prints "[1, 2, 3, 4]" If the sequence has no elements, the result is an empty subsequence. let empty: [Int] = [] print(empty.dropLast()) // Prints "[]" Returns: A subsequence leaving off the last element of the sequence. Complexity: O(n), where n is the length of the sequence. Declaration func dropLast() -> String.CharacterView Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence func dropLast(_:) Returns a subsequence containing all but the specified number of final elements. If the number of elements to drop exceeds the number of elements in the collection, the result is an empty subsequence. let numbers = [1, 2, 3, 4, 5] print(numbers.dropLast(2)) // Prints "[1, 2, 3]" print(numbers.dropLast(10)) // Prints "[]" n: The number of elements to drop off the end of the collection. n must be greater than or equal to zero. Returns: A subsequence that leaves off n elements from the end. Complexity: O(n), where n is the number of elements to drop. Declaration func dropLast(_ n: Int) -> String.CharacterView Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence func elementsEqual(_:) Returns a Boolean value indicating whether this sequence and another sequence contain the same elements in the same order. At least one of the sequences must be finite. This example tests whether one countable range shares the same elements as another countable range and an array. let a = 1...3 let b = 1...10 print(a.elementsEqual(b)) // Prints "false" print(a.elementsEqual([1, 2, 3])) // Prints "true" other: A sequence to compare to this sequence. Returns: true if this sequence and other contain the same elements in the same order. See Also: elementsEqual(_:by:) Declaration func elementsEqual<OtherSequence where OtherSequence : Sequence, OtherSequence.Iterator.Element == Iterator.Element>(_ other: OtherSequence) -> Bool Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence func elementsEqual(_:by:) Returns a Boolean value indicating whether this sequence and another sequence contain equivalent elements, using the given predicate as the equivalence test. At least one of the sequences must be finite. The predicate must be a equivalence relation over the elements. That is, for any elements a, b, and c, the following conditions must hold: areEquivalent(a, a) is always true. (Reflexivity) areEquivalent(a, b) implies areEquivalent(b, a). (Symmetry) If areEquivalent(a, b) and areEquivalent(b, c) are both true, then areEquivalent(a, c) is also true. (Transitivity) Parameters: other: A sequence to compare to this sequence. areEquivalent: A predicate that returns true if its two arguments are equivalent; otherwise, false. Returns: true if this sequence and other contain equivalent items, using areEquivalent as the equivalence test; otherwise, false. See Also: elementsEqual(_:) Declaration func elementsEqual<OtherSequence where OtherSequence : Sequence, OtherSequence.Iterator.Element == Iterator.Element>(_ other: OtherSequence, by areEquivalent: (Character, Character) throws -> Bool) rethrows -> Bool Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence func enumerated() Returns a sequence of pairs (n, x), where n represents a consecutive integer starting at zero, and x represents an element of the sequence. This example enumerates the characters of the string "Swift" and prints each character along with its place in the string. for (n, c) in "Swift".characters.enumerated() { print("\(n): '\(c)'") } // Prints "0: 'S'" // Prints "1: 'w'" // Prints "2: 'i'" // Prints "3: 'f'" // Prints "4: 't'" When enumerating a collection, the integer part of each pair is a counter for the enumeration, not necessarily the index of the paired value. These counters can only be used as indices in instances of zero-based, integer-indexed collections, such as Array and ContiguousArray. For other collections the counters may be out of range or of the wrong type to use as an index. To iterate over the elements of a collection with its indices, use the zip(_:_:) function. This example iterates over the indices and elements of a set, building a list of indices of names with five or fewer letters. let names: Set = ["Sofia", "Camilla", "Martina", "Mateo", "Nicolás"] var shorterIndices: [SetIndex<String>] = [] for (i, name) in zip(names.indices, names) { if name.characters.count <= 5 { shorterIndices.append(i) } } Now that the shorterIndices array holds the indices of the shorter names in the names set, you can use those indices to access elements in the set. for i in shorterIndices { print(names[i]) } // Prints "Sofia" // Prints "Mateo" Returns: A sequence of pairs enumerating the sequence. Declaration func enumerated() -> EnumeratedSequence<String.CharacterView> Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence func filter(_:) Returns an array containing, in order, the elements of the sequence that satisfy the given predicate. In this example, filter is used to include only names shorter than five characters. let cast = ["Vivien", "Marlon", "Kim", "Karl"] let shortNames = cast.filter { $0.characters.count < 5 } print(shortNames) // Prints "["Kim", "Karl"]" shouldInclude: A closure that takes an element of the sequence as its argument and returns a Boolean value indicating whether the element should be included in the returned array. Returns: An array of the elements that includeElement allowed. Declaration func filter(_ isIncluded: (Character) throws -> Bool) rethrows -> [Character] Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence func first(where:) Returns the first element of the sequence that satisfies the given predicate or nil if no such element is found. predicate: A closure that takes an element of the sequence as its argument and returns a Boolean value indicating whether the element is a match. Returns: The first match or nil if there was no match. Declaration func first(where predicate: (Character) throws -> Bool) rethrows -> Character? Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence func flatMap<ElementOfResult>(_: (Character) throws -> ElementOfResult?) Returns an array containing the non-nil results of calling the given transformation with each element of this sequence. Use this method to receive an array of nonoptional values when your transformation produces an optional value. In this example, note the difference in the result of using map and flatMap with a transformation that returns an optional Int value. let possibleNumbers = ["1", "2", "three", "///4///", "5"] let mapped: [Int?] = numbers.map { str in Int(str) } // [1, 2, nil, nil, 5] let flatMapped: [Int] = numbers.flatMap { str in Int(str) } // [1, 2, 5] transform: A closure that accepts an element of this sequence as its argument and returns an optional value. Returns: An array of the non-nil results of calling transform with each element of the sequence. Complexity: O(m + n), where m is the length of this sequence and n is the length of the result. Declaration func flatMap<ElementOfResult>(_ transform: (Character) throws -> ElementOfResult?) rethrows -> [ElementOfResult] Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence func flatMap<SegmentOfResult : Sequence>(_: (Character) throws -> SegmentOfResult) Returns an array containing the concatenated results of calling the given transformation with each element of this sequence. Use this method to receive a single-level collection when your transformation produces a sequence or collection for each element. In this example, note the difference in the result of using map and flatMap with a transformation that returns an array. let numbers = [1, 2, 3, 4] let mapped = numbers.map { Array(count: $0, repeatedValue: $0) } // [[1], [2, 2], [3, 3, 3], [4, 4, 4, 4]] let flatMapped = numbers.flatMap { Array(count: $0, repeatedValue: $0) } // [1, 2, 2, 3, 3, 3, 4, 4, 4, 4] In fact, s.flatMap(transform) is equivalent to Array(s.map(transform).joined()). transform: A closure that accepts an element of this sequence as its argument and returns a sequence or collection. Returns: The resulting flattened array. Complexity: O(m + n), where m is the length of this sequence and n is the length of the result. See Also: joined(), map(_:) Declaration func flatMap<SegmentOfResult : Sequence>(_ transform: (Character) throws -> SegmentOfResult) rethrows -> [SegmentOfResult.Iterator.Element] Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence func forEach(_:) Calls the given closure on each element in the sequence in the same order as a for-in loop. The two loops in the following example produce the same output: let numberWords = ["one", "two", "three"] for word in numberWords { print(word) } // Prints "one" // Prints "two" // Prints "three" numberWords.forEach { word in print(word) } // Same as above Using the forEach method is distinct from a for-in loop in two important ways: You cannot use a break or continue statement to exit the current call of the body closure or skip subsequent calls. Using the return statement in the body closure will exit only from the current call to body, not from any outer scope, and won't skip subsequent calls. body: A closure that takes an element of the sequence as a parameter. Declaration func forEach(_ body: (Character) throws -> Swift.Void) rethrows Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence func formIndex(_:offsetBy:) Offsets the given index by the specified distance. The value passed as n must not offset i beyond the endIndex or before the startIndex of this collection. Parameters: i: A valid index of the collection. n: The distance to offset i. n must not be negative unless the collection conforms to the BidirectionalCollection protocol. See Also: index(_:offsetBy:), formIndex(_:offsetBy:limitedBy:) Complexity: O(1) if the collection conforms to RandomAccessCollection; otherwise, O(n), where n is the absolute value of n. Declaration func formIndex(_ i: inout String.CharacterView.Index, offsetBy n: String.CharacterView.IndexDistance) Declared In BidirectionalCollection, RangeReplaceableCollection, BidirectionalIndexable, Collection, RangeReplaceableIndexable, Indexable func formIndex(_:offsetBy:limitedBy:) Offsets the given index by the specified distance, or so that it equals the given limiting index. The value passed as n must not offset i beyond the endIndex or before the startIndex of this collection, unless the index passed as limit prevents offsetting beyond those bounds. Parameters: i: A valid index of the collection. n: The distance to offset i. n must not be negative unless the collection conforms to the BidirectionalCollection protocol. Returns: true if i has been offset by exactly n steps without going beyond limit; otherwise, false. When the return value is false, the value of i is equal to limit. See Also: index(_:offsetBy:), formIndex(_:offsetBy:limitedBy:) Complexity: O(1) if the collection conforms to RandomAccessCollection; otherwise, O(n), where n is the absolute value of n. Declaration func formIndex(_ i: inout String.CharacterView.Index, offsetBy n: String.CharacterView.IndexDistance, limitedBy limit: String.CharacterView.Index) -> Bool Declared In BidirectionalCollection, RangeReplaceableCollection, BidirectionalIndexable, Collection, RangeReplaceableIndexable, Indexable func formIndex(after:) Replaces the given index with its successor. i: A valid index of the collection. i must be less than endIndex. Declaration func formIndex(after i: inout String.CharacterView.Index) Declared In BidirectionalCollection, RangeReplaceableCollection, BidirectionalIndexable, Collection, RangeReplaceableIndexable, Indexable func formIndex(before:) Replaces the given index with its predecessor. i: A valid index of the collection. i must be greater than startIndex. Declaration func formIndex(before i: inout String.CharacterView.Index) Declared In BidirectionalCollection, BidirectionalIndexable func index(_:offsetBy:) Returns an index that is the specified distance from the given index. The following example obtains an index advanced four positions from a string's starting index and then prints the character at that position. let s = "Swift" let i = s.index(s.startIndex, offsetBy: 4) print(s[i]) // Prints "t" The value passed as n must not offset i beyond the endIndex or before the startIndex of this collection. Parameters: i: A valid index of the collection. n: The distance to offset i. n must not be negative unless the collection conforms to the BidirectionalCollection protocol. Returns: An index offset by n from the index i. If n is positive, this is the same value as the result of n calls to index(after:). If n is negative, this is the same value as the result of -n calls to index(before:). See Also: index(_:offsetBy:limitedBy:), formIndex(_:offsetBy:) Complexity: O(1) if the collection conforms to RandomAccessCollection; otherwise, O(n), where n is the absolute value of n. Declaration func index(_ i: String.CharacterView.Index, offsetBy n: String.CharacterView.IndexDistance) -> String.CharacterView.Index Declared In BidirectionalCollection, RangeReplaceableCollection, BidirectionalIndexable, Collection, RangeReplaceableIndexable, Indexable func index(_:offsetBy:limitedBy:) Returns an index that is the specified distance from the given index, unless that distance is beyond a given limiting index. The following example obtains an index advanced four positions from a string's starting index and then prints the character at that position. The operation doesn't require going beyond the limiting s.endIndex value, so it succeeds. let s = "Swift" if let i = s.index(s.startIndex, offsetBy: 4, limitedBy: s.endIndex) { print(s[i]) } // Prints "t" The next example attempts to retrieve an index six positions from s.startIndex but fails, because that distance is beyond the index passed as limit. let j = s.index(s.startIndex, offsetBy: 6, limitedBy: s.endIndex) print(j) // Prints "nil" The value passed as n must not offset i beyond the endIndex or before the startIndex of this collection, unless the index passed as limit prevents offsetting beyond those bounds. Parameters: i: A valid index of the collection. n: The distance to offset i. n must not be negative unless the collection conforms to the BidirectionalCollection protocol. limit: A valid index of the collection to use as a limit. If n > 0, a limit that is less than i has no effect. Likewise, if n < 0, a limit that is greater than i has no effect. Returns: An index offset by n from the index i, unless that index would be beyond limit in the direction of movement. In that case, the method returns nil. See Also: index(_:offsetBy:), formIndex(_:offsetBy:limitedBy:) Complexity: O(1) if the collection conforms to RandomAccessCollection; otherwise, O(n), where n is the absolute value of n. Declaration func index(_ i: String.CharacterView.Index, offsetBy n: String.CharacterView.IndexDistance, limitedBy limit: String.CharacterView.Index) -> String.CharacterView.Index? Declared In BidirectionalCollection, RangeReplaceableCollection, BidirectionalIndexable, Collection, RangeReplaceableIndexable, Indexable func index(after:) Returns the next consecutive position after i. Precondition: The next position is valid. Declaration func index(after i: String.CharacterView.Index) -> String.CharacterView.Index func index(before:) Returns the previous consecutive position before i. Precondition: The previous position is valid. Declaration func index(before i: String.CharacterView.Index) -> String.CharacterView.Index func index(of:) Returns the first index where the specified value appears in the collection. After using index(of:) to find the position of a particular element in a collection, you can use it to access the element by subscripting. This example shows how you can modify one of the names in an array of students. var students = ["Ben", "Ivy", "Jordell", "Maxime"] if let i = students.index(of: "Maxime") { students[i] = "Max" } print(students) // Prints "["Ben", "Ivy", "Jordell", "Max"]" element: An element to search for in the collection. Returns: The first index where element is found. If element is not found in the collection, returns nil. See Also: index(where:) Declaration func index(of element: Character) -> String.CharacterView.Index? Declared In BidirectionalCollection, RangeReplaceableCollection, Collection func index(where:) Returns the first index in which an element of the collection satisfies the given predicate. You can use the predicate to find an element of a type that doesn't conform to the Equatable protocol or to find an element that matches particular criteria. Here's an example that finds a student name that begins with the letter "A": let students = ["Kofi", "Abena", "Peter", "Kweku", "Akosua"] if let i = students.index(where: { $0.hasPrefix("A") }) { print("\(students[i]) starts with 'A'!") } // Prints "Abena starts with 'A'!" predicate: A closure that takes an element as its argument and returns a Boolean value that indicates whether the passed element represents a match. Returns: The index of the first element for which predicate returns true. If no elements in the collection satisfy the given predicate, returns nil. See Also: index(of:) Declaration func index(where predicate: (Character) throws -> Bool) rethrows -> String.CharacterView.Index? Declared In BidirectionalCollection, RangeReplaceableCollection, Collection mutating func insert(_:at:) Inserts a new element into the collection at the specified position. The new element is inserted before the element currently at the specified index. If you pass the collection's endIndex property as the i parameter, the new element is appended to the collection. var numbers = [1, 2, 3, 4, 5] numbers.insert(100, at: 3) numbers.insert(200, at: numbers.endIndex) print(numbers) // Prints "[1, 2, 3, 100, 4, 5, 200]" Calling this method may invalidate any existing indices for use with this collection. newElement: The new element to insert into the collection. i: The position at which to insert the new element. i must be a valid index into the collection. Complexity: O(n), where n is the length of the collection. Declaration mutating func insert(_ newElement: Character, at i: String.CharacterView.Index) Declared In RangeReplaceableCollection mutating func insert(contentsOf:at:) Inserts the elements of a sequence into the collection at the specified position. The new elements are inserted before the element currently at the specified index. If you pass the collection's endIndex property as the i parameter, the new elements are appended to the collection. Here's an example of inserting a range of integers into an array of the same type: var numbers = [1, 2, 3, 4, 5] numbers.insert(contentsOf: 100...103, at: 3) print(numbers) // Prints "[1, 2, 3, 100, 101, 102, 103, 4, 5]" Calling this method may invalidate any existing indices for use with this collection. newElements: The new elements to insert into the collection. i: The position at which to insert the new elements. i must be a valid index of the collection. Complexity: O(m), where m is the combined length of the collection and newElements. If i is equal to the collection's endIndex property, the complexity is O(n), where n is the length of newElements. Declaration mutating func insert<C : Collection where C.Iterator.Element == Iterator.Element>(contentsOf newElements: C, at i: String.CharacterView.Index) Declared In RangeReplaceableCollection func lexicographicallyPrecedes(_:) Returns a Boolean value indicating whether the sequence precedes another sequence in a lexicographical (dictionary) ordering, using the less-than operator (<) to compare elements. This example uses the lexicographicallyPrecedes method to test which array of integers comes first in a lexicographical ordering. let a = [1, 2, 2, 2] let b = [1, 2, 3, 4] print(a.lexicographicallyPrecedes(b)) // Prints "true" print(b.lexicographicallyPrecedes(b)) // Prints "false" other: A sequence to compare to this sequence. Returns: true if this sequence precedes other in a dictionary ordering; otherwise, false. Note: This method implements the mathematical notion of lexicographical ordering, which has no connection to Unicode. If you are sorting strings to present to the end user, use String APIs that perform localized comparison. See Also: lexicographicallyPrecedes(_:by:) Declaration func lexicographicallyPrecedes<OtherSequence where OtherSequence : Sequence, OtherSequence.Iterator.Element == Iterator.Element>(_ other: OtherSequence) -> Bool Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence func lexicographicallyPrecedes(_:by:) Returns a Boolean value indicating whether the sequence precedes another sequence in a lexicographical (dictionary) ordering, using the given predicate to compare elements. The predicate must be a strict weak ordering over the elements. That is, for any elements a, b, and c, the following conditions must hold: areInIncreasingOrder(a, a) is always false. (Irreflexivity) If areInIncreasingOrder(a, b) and areInIncreasingOrder(b, c) are both true, then areInIncreasingOrder(a, c) is also true. (Transitive comparability) Two elements are incomparable if neither is ordered before the other according to the predicate. If a and b are incomparable, and b and c are incomparable, then a and c are also incomparable. (Transitive incomparability) Parameters: other: A sequence to compare to this sequence. areInIncreasingOrder: A predicate that returns true if its first argument should be ordered before its second argument; otherwise, false. Returns: true if this sequence precedes other in a dictionary ordering as ordered by areInIncreasingOrder; otherwise, false. Note: This method implements the mathematical notion of lexicographical ordering, which has no connection to Unicode. If you are sorting strings to present to the end user, use String APIs that perform localized comparison instead. See Also: lexicographicallyPrecedes(_:) Declaration func lexicographicallyPrecedes<OtherSequence where OtherSequence : Sequence, OtherSequence.Iterator.Element == Iterator.Element>(_ other: OtherSequence, by areInIncreasingOrder: (Character, Character) throws -> Bool) rethrows -> Bool Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence func makeIterator() Returns an iterator over the elements of the collection. Declaration func makeIterator() -> IndexingIterator<String.CharacterView> Declared In BidirectionalCollection, RangeReplaceableCollection, Collection func map(_:) Returns an array containing the results of mapping the given closure over the sequence's elements. In this example, map is used first to convert the names in the array to lowercase strings and then to count their characters. let cast = ["Vivien", "Marlon", "Kim", "Karl"] let lowercaseNames = cast.map { $0.lowercaseString } // 'lowercaseNames' == ["vivien", "marlon", "kim", "karl"] let letterCounts = cast.map { $0.characters.count } // 'letterCounts' == [6, 6, 3, 4] transform: A mapping closure. transform accepts an element of this sequence as its parameter and returns a transformed value of the same or of a different type. Returns: An array containing the transformed elements of this sequence. Declaration func map<T>(_ transform: (Character) throws -> T) rethrows -> [T] Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence @warn_unqualified_access func max() Returns the maximum element in the sequence. This example finds the smallest value in an array of height measurements. let heights = [67.5, 65.7, 64.3, 61.1, 58.5, 60.3, 64.9] let greatestHeight = heights.max() print(greatestHeight) // Prints "Optional(67.5)" Returns: The sequence's maximum element. If the sequence has no elements, returns nil. See Also: max(by:) Declaration @warn_unqualified_access func max() -> Character? Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence @warn_unqualified_access func max(by:) Returns the maximum element in the sequence, using the given predicate as the comparison between elements. The predicate must be a strict weak ordering over the elements. That is, for any elements a, b, and c, the following conditions must hold: areInIncreasingOrder(a, a) is always false. (Irreflexivity) If areInIncreasingOrder(a, b) and areInIncreasingOrder(b, c) are both true, then areInIncreasingOrder(a, c) is also true. (Transitive comparability) Two elements are incomparable if neither is ordered before the other according to the predicate. If a and b are incomparable, and b and c are incomparable, then a and c are also incomparable. (Transitive incomparability) This example shows how to use the max(by:) method on a dictionary to find the key-value pair with the highest value. let hues = ["Heliotrope": 296, "Coral": 16, "Aquamarine": 156] let greatestHue = hues.max { a, b in a.value < b.value } print(greatestHue) // Prints "Optional(("Heliotrope", 296))" areInIncreasingOrder: A predicate that returns true if its first argument should be ordered before its second argument; otherwise, false. Returns: The sequence's maximum element if the sequence is not empty; otherwise, nil. See Also: max() Declaration @warn_unqualified_access func max(by areInIncreasingOrder: (Character, Character) throws -> Bool) rethrows -> Character? Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence @warn_unqualified_access func min() Returns the minimum element in the sequence. This example finds the smallest value in an array of height measurements. let heights = [67.5, 65.7, 64.3, 61.1, 58.5, 60.3, 64.9] let lowestHeight = heights.min() print(lowestHeight) // Prints "Optional(58.5)" Returns: The sequence's minimum element. If the sequence has no elements, returns nil. See Also: min(by:) Declaration @warn_unqualified_access func min() -> Character? Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence @warn_unqualified_access func min(by:) Returns the minimum element in the sequence, using the given predicate as the comparison between elements. The predicate must be a strict weak ordering over the elements. That is, for any elements a, b, and c, the following conditions must hold: areInIncreasingOrder(a, a) is always false. (Irreflexivity) If areInIncreasingOrder(a, b) and areInIncreasingOrder(b, c) are both true, then areInIncreasingOrder(a, c) is also true. (Transitive comparability) Two elements are incomparable if neither is ordered before the other according to the predicate. If a and b are incomparable, and b and c are incomparable, then a and c are also incomparable. (Transitive incomparability) This example shows how to use the min(by:) method on a dictionary to find the key-value pair with the lowest value. let hues = ["Heliotrope": 296, "Coral": 16, "Aquamarine": 156] let leastHue = hues.min { a, b in a.value < b.value } print(leastHue) // Prints "Optional(("Coral", 16))" areInIncreasingOrder: A predicate that returns true if its first argument should be ordered before its second argument; otherwise, false. Returns: The sequence's minimum element, according to areInIncreasingOrder. If the sequence has no elements, returns nil. See Also: min() Declaration @warn_unqualified_access func min(by areInIncreasingOrder: (Character, Character) throws -> Bool) rethrows -> Character? Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence mutating func popFirst() Removes and returns the first element of the collection. Returns: The first element of the collection if the collection is not empty; otherwise, nil. Complexity: O(1) Declaration mutating func popFirst() -> Character? Declared In BidirectionalCollection, RangeReplaceableCollection, Collection mutating func popLast() Removes and returns the last element of the collection. Returns: The last element of the collection if the collection has one or more elements; otherwise, nil. Complexity: O(1). See Also: removeLast() Declaration mutating func popLast() -> Character? Declared In BidirectionalCollection func prefix(_:) Returns a subsequence, up to the specified maximum length, containing the initial elements of the collection. If the maximum length exceeds the number of elements in the collection, the result contains all the elements in the collection. let numbers = [1, 2, 3, 4, 5] print(numbers.prefix(2)) // Prints "[1, 2]" print(numbers.prefix(10)) // Prints "[1, 2, 3, 4, 5]" maxLength: The maximum number of elements to return. maxLength must be greater than or equal to zero. Returns: A subsequence starting at the beginning of this collection with at most maxLength elements. Declaration func prefix(_ maxLength: Int) -> String.CharacterView Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence func prefix(through:) Returns a subsequence from the start of the collection through the specified position. The resulting subsequence includes the element at the position end. The following example searches for the index of the number 40 in an array of integers, and then prints the prefix of the array up to, and including, that index: let numbers = [10, 20, 30, 40, 50, 60] if let i = numbers.index(of: 40) { print(numbers.prefix(through: i)) } // Prints "[10, 20, 30, 40]" end: The index of the last element to include in the resulting subsequence. end must be a valid index of the collection that is not equal to the endIndex property. Returns: A subsequence up to, and including, the end position. Complexity: O(1) See Also: prefix(upTo:) Declaration func prefix(through position: String.CharacterView.Index) -> String.CharacterView Declared In BidirectionalCollection, RangeReplaceableCollection, Collection func prefix(upTo:) Returns a subsequence from the start of the collection up to, but not including, the specified position. The resulting subsequence does not include the element at the position end. The following example searches for the index of the number 40 in an array of integers, and then prints the prefix of the array up to, but not including, that index: let numbers = [10, 20, 30, 40, 50, 60] if let i = numbers.index(of: 40) { print(numbers.prefix(upTo: i)) } // Prints "[10, 20, 30]" Passing the collection's starting index as the end parameter results in an empty subsequence. print(numbers.prefix(upTo: numbers.startIndex)) // Prints "[]" end: The "past the end" index of the resulting subsequence. end must be a valid index of the collection. Returns: A subsequence up to, but not including, the end position. Complexity: O(1) See Also: prefix(through:) Declaration func prefix(upTo end: String.CharacterView.Index) -> String.CharacterView Declared In BidirectionalCollection, RangeReplaceableCollection, Collection func reduce(_:_:) Returns the result of calling the given combining closure with each element of this sequence and an accumulating value. The nextPartialResult closure is called sequentially with an accumulating value initialized to initialResult and each element of the sequence. This example shows how to find the sum of an array of numbers. let numbers = [1, 2, 3, 4] let addTwo: (Int, Int) -> Int = { x, y in x + y } let numberSum = numbers.reduce(0, addTwo) // 'numberSum' == 10 When numbers.reduce(_:_:) is called, the following steps occur: The nextPartialResult closure is called with the initial result and the first element of numbers, returning the sum: 1. The closure is called again repeatedly with the previous call's return value and each element of the sequence. When the sequence is exhausted, the last value returned from the closure is returned to the caller. Parameters: initialResult: the initial accumulating value. nextPartialResult: A closure that combines an accumulating value and an element of the sequence into a new accumulating value, to be used in the next call of the nextPartialResult closure or returned to the caller. Returns: The final accumulated value. Declaration func reduce<Result>(_ initialResult: Result, _ nextPartialResult: (Result, Character) throws -> Result) rethrows -> Result Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence mutating func remove(at:) Removes and returns the element at the specified position. All the elements following the specified position are moved to close the gap. This example removes the middle element from an array of measurements. var measurements = [1.2, 1.5, 2.9, 1.2, 1.6] let removed = measurements.remove(at: 2) print(measurements) // Prints "[1.2, 1.5, 1.2, 1.6]" Calling this method may invalidate any existing indices for use with this collection. position: The position of the element to remove. position must be a valid index of the collection that is not equal to the collection's end index. Returns: The removed element. Complexity: O(n), where n is the length of the collection. Declaration mutating func remove(at position: String.CharacterView.Index) -> Character Declared In RangeReplaceableCollection mutating func removeAll(keepingCapacity:) Removes all elements from the collection. Calling this method may invalidate any existing indices for use with this collection. keepCapacity: Pass true to request that the collection avoid releasing its storage. Retaining the collection's storage can be a useful optimization when you're planning to grow the collection again. The default value is false. Complexity: O(n), where n is the length of the collection. Declaration mutating func removeAll(keepingCapacity keepCapacity: Bool = default) Declared In RangeReplaceableCollection mutating func removeFirst() Removes and returns the first element of the collection. The collection must not be empty. Returns: The first element of the collection. Complexity: O(1) See Also: popFirst() Declaration mutating func removeFirst() -> Character Declared In BidirectionalCollection, RangeReplaceableCollection, Collection mutating func removeFirst(_:) Removes the specified number of elements from the beginning of the collection. n: The number of elements to remove. n must be greater than or equal to zero, and must be less than or equal to the number of elements in the collection. Complexity: O(1) if the collection conforms to RandomAccessCollection; otherwise, O(n). Declaration mutating func removeFirst(_ n: Int) Declared In BidirectionalCollection, RangeReplaceableCollection, Collection mutating func removeLast() Removes and returns the last element of the collection. The collection must not be empty. Returns: The last element of the collection. Complexity: O(1) See Also: popLast() Declaration mutating func removeLast() -> Character Declared In BidirectionalCollection, RangeReplaceableCollection mutating func removeLast(_:) Removes the given number of elements from the end of the collection. n: The number of elements to remove. n must be greater than or equal to zero, and must be less than or equal to the number of elements in the collection. Complexity: O(1) if the collection conforms to RandomAccessCollection; otherwise, O(n), where n is the length of the collection. Declaration mutating func removeLast(_ n: Int) Declared In BidirectionalCollection, RangeReplaceableCollection mutating func removeSubrange(_: ClosedRange<String.CharacterView.Index>) Removes the elements in the specified subrange from the collection. All the elements following the specified position are moved to close the gap. This example removes two elements from the middle of an array of measurements. var measurements = [1.2, 1.5, 2.9, 1.2, 1.5] measurements.removeSubrange(1..<3) print(measurements) // Prints "[1.2, 1.5]" Calling this method may invalidate any existing indices for use with this collection. bounds: The range of the collection to be removed. The bounds of the range must be valid indices of the collection. Complexity: O(n), where n is the length of the collection. Declaration mutating func removeSubrange(_ bounds: ClosedRange<String.CharacterView.Index>) Declared In RangeReplaceableCollection mutating func removeSubrange(_: Range<String.CharacterView.Index>) Removes the elements in the specified subrange from the collection. All the elements following the specified position are moved to close the gap. This example removes two elements from the middle of an array of measurements. var measurements = [1.2, 1.5, 2.9, 1.2, 1.5] measurements.removeSubrange(1..<3) print(measurements) // Prints "[1.2, 1.5]" Calling this method may invalidate any existing indices for use with this collection. bounds: The range of the collection to be removed. The bounds of the range must be valid indices of the collection. Complexity: O(n), where n is the length of the collection. Declaration mutating func removeSubrange(_ bounds: Range<String.CharacterView.Index>) Declared In RangeReplaceableCollection mutating func replaceSubrange(_:with:) Replaces the characters within the specified bounds with the given characters. Invalidates all indices with respect to the string. Parameters: bounds: The range of characters to replace. The bounds of the range must be valid indices of the character view. newElements: The new characters to add to the view. Complexity: O(m), where m is the combined length of the character view and newElements. If the call to replaceSubrange(_:with:) simply removes characters at the end of the view, the complexity is O(n), where n is equal to bounds.count. Declaration mutating func replaceSubrange<C where C : Collection, C.Iterator.Element == Character>(_ bounds: Range<String.CharacterView.Index>, with newElements: C) Declared In String.CharacterView, RangeReplaceableCollection mutating func reserveCapacity(_:) Reserves enough space in the character view's underlying storage to store the specified number of ASCII characters. Because each element of a character view can require more than a single ASCII character's worth of storage, additional allocation may be necessary when adding characters to the character view after a call to reserveCapacity(_:). n: The minimum number of ASCII character's worth of storage to allocate. Complexity: O(n), where n is the capacity being reserved. Declaration mutating func reserveCapacity(_ n: Int) Declared In String.CharacterView, RangeReplaceableCollection func reversed() Returns a view presenting the elements of the collection in reverse order. You can reverse a collection without allocating new space for its elements by calling this reversed() method. A ReversedCollection instance wraps an underlying collection and provides access to its elements in reverse order. This example prints the characters of a string in reverse order: let word = "Backwards" for char in word.characters.reversed() { print(char, terminator="") } // Prints "sdrawkcaB" If you need a reversed collection of the same type, you may be able to use the collection's sequence-based or collection-based initializer. For example, to get the reversed version of a string, reverse its characters and initialize a new String instance from the result. let reversedWord = String(word.characters.reversed()) print(reversedWord) // Prints "sdrawkcaB" Complexity: O(1) Declaration func reversed() -> ReversedCollection<String.CharacterView> Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence func sorted() Returns the elements of the sequence, sorted. You can sort any sequence of elements that conform to the Comparable protocol by calling this method. Elements are sorted in ascending order. The sorting algorithm is not stable. A nonstable sort may change the relative order of elements that compare equal. Here's an example of sorting a list of students' names. Strings in Swift conform to the Comparable protocol, so the names are sorted in ascending order according to the less-than operator (<). let students: Set = ["Kofi", "Abena", "Peter", "Kweku", "Akosua"] let sortedStudents = students.sorted() print(sortedStudents) // Prints "["Abena", "Akosua", "Kofi", "Kweku", "Peter"]" To sort the elements of your sequence in descending order, pass the greater-than operator (>) to the sorted(by:) method. let descendingStudents = students.sorted(by: >) print(descendingStudents) // Prints "["Peter", "Kweku", "Kofi", "Akosua", "Abena"]" Returns: A sorted array of the sequence's elements. See Also: sorted(by:) Declaration func sorted() -> [Character] Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence func sorted(by:) Returns the elements of the sequence, sorted using the given predicate as the comparison between elements. When you want to sort a sequence of elements that don't conform to the Comparable protocol, pass a predicate to this method that returns true when the first element passed should be ordered before the second. The elements of the resulting array are ordered according to the given predicate. The predicate must be a strict weak ordering over the elements. That is, for any elements a, b, and c, the following conditions must hold: areInIncreasingOrder(a, a) is always false. (Irreflexivity) If areInIncreasingOrder(a, b) and areInIncreasingOrder(b, c) are both true, then areInIncreasingOrder(a, c) is also true. (Transitive comparability) Two elements are incomparable if neither is ordered before the other according to the predicate. If a and b are incomparable, and b and c are incomparable, then a and c are also incomparable. (Transitive incomparability) The sorting algorithm is not stable. A nonstable sort may change the relative order of elements for which areInIncreasingOrder does not establish an order. In the following example, the predicate provides an ordering for an array of a custom HTTPResponse type. The predicate orders errors before successes and sorts the error responses by their error code. enum HTTPResponse { case ok case error(Int) } let responses: [HTTPResponse] = [.error(500), .ok, .ok, .error(404), .error(403)] let sortedResponses = responses.sorted { switch ($0, $1) { // Order errors by code case let (.error(aCode), .error(bCode)): return aCode < bCode // All successes are equivalent, so none is before any other case (.ok, .ok): return false // Order errors before successes case (.error, .ok): return true case (.ok, .error): return false } } print(sortedResponses) // Prints "[.error(403), .error(404), .error(500), .ok, .ok]" You also use this method to sort elements that conform to the Comparable protocol in descending order. To sort your sequence in descending order, pass the greater-than operator (>) as the areInIncreasingOrder parameter. let students: Set = ["Kofi", "Abena", "Peter", "Kweku", "Akosua"] let descendingStudents = students.sorted(by: >) print(descendingStudents) // Prints "["Peter", "Kweku", "Kofi", "Akosua", "Abena"]" Calling the related sorted() method is equivalent to calling this method and passing the less-than operator (<) as the predicate. print(students.sorted()) // Prints "["Abena", "Akosua", "Kofi", "Kweku", "Peter"]" print(students.sorted(by: <)) // Prints "["Abena", "Akosua", "Kofi", "Kweku", "Peter"]" areInIncreasingOrder: A predicate that returns true if its first argument should be ordered before its second argument; otherwise, false. Returns: A sorted array of the sequence's elements. See Also: sorted() Declaration func sorted(by areInIncreasingOrder: (Character, Character) -> Bool) -> [Character] Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence func split(_:maxSplits:omittingEmptySubsequences:) Returns the longest possible subsequences of the collection, in order, around elements equal to the given element. The resulting array consists of at most maxSplits + 1 subsequences. Elements that are used to split the collection are not returned as part of any subsequence. The following examples show the effects of the maxSplits and omittingEmptySubsequences parameters when splitting a string at each space character (" "). The first use of split returns each word that was originally separated by one or more spaces. let line = "BLANCHE: I don't want realism. I want magic!" print(line.characters.split(separator: " ") .map(String.init)) // Prints "["BLANCHE:", "I", "don\'t", "want", "realism.", "I", "want", "magic!"]" The second example passes 1 for the maxSplits parameter, so the original string is split just once, into two new strings. print(line.characters.split(separator: " ", maxSplits: 1) .map(String.init)) // Prints "["BLANCHE:", " I don\'t want realism. I want magic!"]" The final example passes false for the omittingEmptySubsequences parameter, so the returned array contains empty strings where spaces were repeated. print(line.characters.split(separator: " ", omittingEmptySubsequences: false) .map(String.init)) // Prints "["BLANCHE:", "", "", "I", "don\'t", "want", "realism.", "I", "want", "magic!"]" Parameters: separator: The element that should be split upon. maxSplits: The maximum number of times to split the collection, or one less than the number of subsequences to return. If maxSplits + 1 subsequences are returned, the last one is a suffix of the original collection containing the remaining elements. maxSplits must be greater than or equal to zero. The default value is Int.max. omittingEmptySubsequences: If false, an empty subsequence is returned in the result for each consecutive pair of separator elements in the collection and for each instance of separator at the start or end of the collection. If true, only nonempty subsequences are returned. The default value is true. Returns: An array of subsequences, split from this collection's elements. Declaration func split(separator: Character, maxSplits: Int = default, omittingEmptySubsequences: Bool = default) -> [String.CharacterView] Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence func split(_:omittingEmptySubsequences:whereSeparator:) Returns the longest possible subsequences of the collection, in order, that don't contain elements satisfying the given predicate. The resulting array consists of at most maxSplits + 1 subsequences. Elements that are used to split the sequence are not returned as part of any subsequence. The following examples show the effects of the maxSplits and omittingEmptySubsequences parameters when splitting a string using a closure that matches spaces. The first use of split returns each word that was originally separated by one or more spaces. let line = "BLANCHE: I don't want realism. I want magic!" print(line.characters.split(whereSeparator: { $0 == " " }) .map(String.init)) // Prints "["BLANCHE:", "I", "don\'t", "want", "realism.", "I", "want", "magic!"]" The second example passes 1 for the maxSplits parameter, so the original string is split just once, into two new strings. print( line.characters.split( maxSplits: 1, whereSeparator: { $0 == " " } ).map(String.init)) // Prints "["BLANCHE:", " I don\'t want realism. I want magic!"]" The final example passes false for the omittingEmptySubsequences parameter, so the returned array contains empty strings where spaces were repeated. print(line.characters.split(omittingEmptySubsequences: false, whereSeparator: { $0 == " " }) .map(String.init)) // Prints "["BLANCHE:", "", "", "I", "don\'t", "want", "realism.", "I", "want", "magic!"]" Parameters: maxSplits: The maximum number of times to split the collection, or one less than the number of subsequences to return. If maxSplits + 1 subsequences are returned, the last one is a suffix of the original collection containing the remaining elements. maxSplits must be greater than or equal to zero. The default value is Int.max. omittingEmptySubsequences: If false, an empty subsequence is returned in the result for each pair of consecutive elements satisfying the isSeparator predicate and for each element at the start or end of the collection satisfying the isSeparator predicate. The default value is true. isSeparator: A closure that takes an element as an argument and returns a Boolean value indicating whether the collection should be split at that element. Returns: An array of subsequences, split from this collection's elements. Declaration func split(maxSplits: Int = default, omittingEmptySubsequences: Bool = default, whereSeparator isSeparator: (Character) throws -> Bool) rethrows -> [String.CharacterView] Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence func starts(with:) Returns a Boolean value indicating whether the initial elements of the sequence are the same as the elements in another sequence. This example tests whether one countable range begins with the elements of another countable range. let a = 1...3 let b = 1...10 print(b.starts(with: a)) // Prints "true" Passing an sequence with no elements or an empty collection as possiblePrefix always results in true. print(b.starts(with: [])) // Prints "true" possiblePrefix: A sequence to compare to this sequence. Returns: true if the initial elements of the sequence are the same as the elements of possiblePrefix; otherwise, false. If possiblePrefix has no elements, the return value is true. See Also: starts(with:by:) Declaration func starts<PossiblePrefix where PossiblePrefix : Sequence, PossiblePrefix.Iterator.Element == Iterator.Element>(with possiblePrefix: PossiblePrefix) -> Bool Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence func starts(with:by:) Returns a Boolean value indicating whether the initial elements of the sequence are equivalent to the elements in another sequence, using the given predicate as the equivalence test. The predicate must be a equivalence relation over the elements. That is, for any elements a, b, and c, the following conditions must hold: areEquivalent(a, a) is always true. (Reflexivity) areEquivalent(a, b) implies areEquivalent(b, a). (Symmetry) If areEquivalent(a, b) and areEquivalent(b, c) are both true, then areEquivalent(a, c) is also true. (Transitivity) Parameters: possiblePrefix: A sequence to compare to this sequence. areEquivalent: A predicate that returns true if its two arguments are equivalent; otherwise, false. Returns: true if the initial elements of the sequence are equivalent to the elements of possiblePrefix; otherwise, false. If possiblePrefix has no elements, the return value is true. See Also: starts(with:) Declaration func starts<PossiblePrefix where PossiblePrefix : Sequence, PossiblePrefix.Iterator.Element == Iterator.Element>(with possiblePrefix: PossiblePrefix, by areEquivalent: (Character, Character) throws -> Bool) rethrows -> Bool Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence func suffix(_:) Returns a subsequence, up to the given maximum length, containing the final elements of the collection. If the maximum length exceeds the number of elements in the collection, the result contains the entire collection. let numbers = [1, 2, 3, 4, 5] print(numbers.suffix(2)) // Prints "[4, 5]" print(numbers.suffix(10)) // Prints "[1, 2, 3, 4, 5]" maxLength: The maximum number of elements to return. maxLength must be greater than or equal to zero. Returns: A subsequence terminating at the end of the collection with at most maxLength elements. Complexity: O(n), where n is equal to maxLength. Declaration func suffix(_ maxLength: Int) -> String.CharacterView Declared In BidirectionalCollection, RangeReplaceableCollection, Collection, Sequence func suffix(from:) Returns a subsequence from the specified position to the end of the collection. The following example searches for the index of the number 40 in an array of integers, and then prints the suffix of the array starting at that index: let numbers = [10, 20, 30, 40, 50, 60] if let i = numbers.index(of: 40) { print(numbers.suffix(from: i)) } // Prints "[40, 50, 60]" Passing the collection's endIndex as the start parameter results in an empty subsequence. print(numbers.suffix(from: numbers.endIndex)) // Prints "[]" start: The index at which to start the resulting subsequence. start must be a valid index of the collection. Returns: A subsequence starting at the start position. Complexity: O(1) Declaration func suffix(from start: String.CharacterView.Index) -> String.CharacterView Declared In BidirectionalCollection, RangeReplaceableCollection, Collection Conditionally Inherited Items The initializers, methods, and properties listed below may be available on this type under certain conditions (such as methods that are available on Array when its elements are Equatable) or may not ever be available if that determination is beyond SwiftDoc.org's capabilities. Please open an issue on GitHub if you see something out of place! Where Indices == DefaultBidirectionalIndices var indices: DefaultBidirectionalIndices<String.CharacterView> The indices that are valid for subscripting the collection, in ascending order. A collection's indices property can hold a strong reference to the collection itself, causing the collection to be non-uniquely referenced. If you mutate the collection while iterating over its indices, a strong reference can cause an unexpected copy of the collection. To avoid the unexpected copy, use the index(after:) method starting with startIndex to produce indices instead. var c = MyFancyCollection([10, 20, 30, 40, 50]) var i = c.startIndex while i != c.endIndex { c[i] /= 5 i = c.index(after: i) } // c == MyFancyCollection([2, 4, 6, 8, 10]) Declaration var indices: DefaultBidirectionalIndices<String.CharacterView> { get } Declared In BidirectionalCollection Where Indices == DefaultIndices var indices: DefaultIndices<String.CharacterView> The indices that are valid for subscripting the collection, in ascending order. A collection's indices property can hold a strong reference to the collection itself, causing the collection to be non-uniquely referenced. If you mutate the collection while iterating over its indices, a strong reference can cause an unexpected copy of the collection. To avoid the unexpected copy, use the index(after:) method starting with startIndex to produce indices instead. var c = MyFancyCollection([10, 20, 30, 40, 50]) var i = c.startIndex while i != c.endIndex { c[i] /= 5 i = c.index(after: i) } // c == MyFancyCollection([2, 4, 6, 8, 10]) Declaration var indices: DefaultIndices<String.CharacterView> { get } Declared In BidirectionalCollection , RangeReplaceableCollection , Collection