| //===----------------------------------------------------------------------===// |
| // |
| // This source file is part of the Swift.org open source project |
| // |
| // Copyright (c) 2014 - 2017 Apple Inc. and the Swift project authors |
| // Licensed under Apache License v2.0 with Runtime Library Exception |
| // |
| // See https://swift.org/LICENSE.txt for license information |
| // See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors |
| // |
| //===----------------------------------------------------------------------===// |
| |
| extension String : StringProtocol, RangeReplaceableCollection { |
| public typealias SubSequence = Substring |
| |
| /// Creates a string representing the given character repeated the specified |
| /// number of times. |
| /// |
| /// For example, use this initializer to create a string with ten `"0"` |
| /// characters in a row. |
| /// |
| /// let zeroes = String(repeating: "0" as Character, count: 10) |
| /// print(zeroes) |
| /// // Prints "0000000000" |
| /// |
| /// - Parameters: |
| /// - repeatedValue: The character to repeat. |
| /// - count: The number of times to repeat `repeatedValue` in the |
| /// resulting string. |
| @_inlineable // FIXME(sil-serialize-all) |
| public init(repeating repeatedValue: Character, count: Int) { |
| self.init(repeating: String(repeatedValue), count: count) |
| } |
| |
| // This initializer disambiguates between the following intitializers, now |
| // that String conforms to Collection: |
| // - init<T>(_ value: T) where T : LosslessStringConvertible |
| // - init<S>(_ characters: S) where S : Sequence, S.Element == Character |
| |
| /// Creates a new string containing the characters in the given sequence. |
| /// |
| /// You can use this initializer to create a new string from the result of |
| /// one or more collection operations on a string's characters. For example: |
| /// |
| /// let str = "The rain in Spain stays mainly in the plain." |
| /// |
| /// let vowels: Set<Character> = ["a", "e", "i", "o", "u"] |
| /// let disemvoweled = String(str.lazy.filter { !vowels.contains($0) }) |
| /// |
| /// print(disemvoweled) |
| /// // Prints "Th rn n Spn stys mnly n th pln." |
| /// |
| /// - Parameter other: A string instance or another sequence of |
| /// characters. |
| @_inlineable // FIXME(sil-serialize-all) |
| public init<S : Sequence & LosslessStringConvertible>(_ other: S) |
| where S.Element == Character { |
| self._core = _CharacterView(other)._core |
| } |
| |
| // The defaulted argument prevents this initializer from satisfies the |
| // LosslessStringConvertible conformance. You can satisfy a protocol |
| // requirement with something that's not yet available, but not with |
| // something that has become unavailable. Without this, the code won't |
| // compile as Swift 4. |
| @_inlineable // FIXME(sil-serialize-all) |
| @available(swift, obsoleted: 4, message: "String.init(_:String) is no longer failable") |
| public init?(_ other: String, obsoletedInSwift4: () = ()) { |
| self.init(other._core) |
| } |
| |
| /// The position of the first character in a nonempty string. |
| /// |
| /// In an empty string, `startIndex` is equal to `endIndex`. |
| @_inlineable // FIXME(sil-serialize-all) |
| public var startIndex: Index { return _characters.startIndex } |
| |
| /// A string's "past the end" position---that is, the position one greater |
| /// than the last valid subscript argument. |
| /// |
| /// In an empty string, `endIndex` is equal to `startIndex`. |
| @_inlineable // FIXME(sil-serialize-all) |
| public var endIndex: Index { return _characters.endIndex } |
| |
| /// Returns the position immediately after the given index. |
| /// |
| /// - Parameter i: A valid index of the collection. `i` must be less than |
| /// `endIndex`. |
| /// - Returns: The index value immediately after `i`. |
| @_inlineable // FIXME(sil-serialize-all) |
| public func index(after i: Index) -> Index { |
| return _characters.index(after: i) |
| } |
| |
| /// Returns the position immediately before the given index. |
| /// |
| /// - Parameter i: A valid index of the collection. `i` must be greater than |
| /// `startIndex`. |
| /// - Returns: The index value immediately before `i`. |
| @_inlineable // FIXME(sil-serialize-all) |
| public func index(before i: Index) -> Index { |
| return _characters.index(before: i) |
| } |
| |
| /// 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 bounds of the |
| /// collection. |
| /// |
| /// - Parameters: |
| /// - i: A valid index of the collection. |
| /// - n: The distance to offset `i`. |
| /// - 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:)`. |
| /// |
| /// - Complexity: O(*n*), where *n* is the absolute value of `n`. |
| @_inlineable // FIXME(sil-serialize-all) |
| public func index(_ i: Index, offsetBy n: Int) -> Index { |
| return _characters.index(i, offsetBy: n) |
| } |
| |
| /// 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 bounds of the |
| /// 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`. |
| /// - 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`. |
| /// |
| /// - Complexity: O(*n*), where *n* is the absolute value of `n`. |
| @_inlineable // FIXME(sil-serialize-all) |
| public func index( |
| _ i: Index, offsetBy n: Int, limitedBy limit: Index |
| ) -> Index? { |
| return _characters.index(i, offsetBy: n, limitedBy: limit) |
| } |
| |
| /// Returns the distance between two indices. |
| /// |
| /// - 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`. |
| /// |
| /// - Complexity: O(*n*), where *n* is the resulting distance. |
| @_inlineable // FIXME(sil-serialize-all) |
| public func distance(from start: Index, to end: Index) -> Int { |
| return _characters.distance(from: start, to: end) |
| } |
| |
| /// Accesses the character at the given position. |
| /// |
| /// You can use the same indices for subscripting a string and its substring. |
| /// For example, this code finds the first letter after the first space: |
| /// |
| /// let str = "Greetings, friend! How are you?" |
| /// let firstSpace = str.index(of: " ") ?? str.endIndex |
| /// let substr = str[firstSpace...] |
| /// if let nextCapital = substr.index(where: { $0 >= "A" && $0 <= "Z" }) { |
| /// print("Capital after a space: \(str[nextCapital])") |
| /// } |
| /// // Prints "Capital after a space: H" |
| /// |
| /// - Parameter i: A valid index of the string. `i` must be less than the |
| /// string's end index. |
| @_inlineable // FIXME(sil-serialize-all) |
| public subscript(i: Index) -> Character { return _characters[i] } |
| } |
| |
| extension String { |
| /// Creates a new string containing the characters in the given sequence. |
| /// |
| /// You can use this initializer to create a new string from the result of |
| /// one or more collection operations on a string's characters. For example: |
| /// |
| /// let str = "The rain in Spain stays mainly in the plain." |
| /// |
| /// let vowels: Set<Character> = ["a", "e", "i", "o", "u"] |
| /// let disemvoweled = String(str.lazy.filter { !vowels.contains($0) }) |
| /// |
| /// print(disemvoweled) |
| /// // Prints "Th rn n Spn stys mnly n th pln." |
| /// |
| /// - Parameter characters: A string instance or another sequence of |
| /// characters. |
| @_inlineable // FIXME(sil-serialize-all) |
| public init<S : Sequence>(_ characters: S) |
| where S.Iterator.Element == Character { |
| self._core = _CharacterView(characters)._core |
| } |
| |
| /// Reserves enough space in the string's underlying storage to store the |
| /// specified number of ASCII characters. |
| /// |
| /// Because each character in a string can require more than a single ASCII |
| /// character's worth of storage, additional allocation may be necessary |
| /// when adding characters to a string after a call to |
| /// `reserveCapacity(_:)`. |
| /// |
| /// - Parameter n: The minimum number of ASCII character's worth of storage |
| /// to allocate. |
| /// |
| /// - Complexity: O(*n*) |
| @_inlineable // FIXME(sil-serialize-all) |
| public mutating func reserveCapacity(_ n: Int) { |
| withMutableCharacters { |
| (v: inout _CharacterView) in v.reserveCapacity(n) |
| } |
| } |
| |
| /// Appends the given character to the string. |
| /// |
| /// The following example adds an emoji globe to the end of a string. |
| /// |
| /// var globe = "Globe " |
| /// globe.append("🌍") |
| /// print(globe) |
| /// // Prints "Globe 🌍" |
| /// |
| /// - Parameter c: The character to append to the string. |
| @_inlineable // FIXME(sil-serialize-all) |
| public mutating func append(_ c: Character) { |
| withMutableCharacters { |
| (v: inout _CharacterView) in v.append(c) |
| } |
| } |
| |
| /// Appends the characters in the given sequence to the string. |
| /// |
| /// - Parameter newElements: A sequence of characters. |
| @_inlineable // FIXME(sil-serialize-all) |
| public mutating func append<S : Sequence>(contentsOf newElements: S) |
| where S.Iterator.Element == Character { |
| withMutableCharacters { |
| (v: inout _CharacterView) in v.append(contentsOf: newElements) |
| } |
| } |
| |
| /// Replaces the text within the specified bounds with the given characters. |
| /// |
| /// Calling this method invalidates any existing indices for use with this |
| /// string. |
| /// |
| /// - Parameters: |
| /// - bounds: The range of text to replace. The bounds of the range must be |
| /// valid indices of the string. |
| /// - newElements: The new characters to add to the string. |
| /// |
| /// - Complexity: O(*m*), where *m* is the combined length of the string and |
| /// `newElements`. If the call to `replaceSubrange(_:with:)` simply |
| /// removes text at the end of the string, the complexity is O(*n*), where |
| /// *n* is equal to `bounds.count`. |
| @_inlineable // FIXME(sil-serialize-all) |
| public mutating func replaceSubrange<C>( |
| _ bounds: Range<Index>, |
| with newElements: C |
| ) where C : Collection, C.Iterator.Element == Character { |
| withMutableCharacters { |
| (v: inout _CharacterView) |
| in v.replaceSubrange(bounds, with: newElements) |
| } |
| } |
| |
| /// Inserts a new character at the specified position. |
| /// |
| /// Calling this method invalidates any existing indices for use with this |
| /// string. |
| /// |
| /// - Parameters: |
| /// - newElement: The new character to insert into the string. |
| /// - i: A valid index of the string. If `i` is equal to the string's end |
| /// index, this methods appends `newElement` to the string. |
| /// |
| /// - Complexity: O(*n*), where *n* is the length of the string. |
| @_inlineable // FIXME(sil-serialize-all) |
| public mutating func insert(_ newElement: Character, at i: Index) { |
| withMutableCharacters { |
| (v: inout _CharacterView) in v.insert(newElement, at: i) |
| } |
| } |
| |
| /// Inserts a collection of characters at the specified position. |
| /// |
| /// Calling this method invalidates any existing indices for use with this |
| /// string. |
| /// |
| /// - Parameters: |
| /// - newElements: A collection of `Character` elements to insert into the |
| /// string. |
| /// - i: A valid index of the string. If `i` is equal to the string's end |
| /// index, this methods appends the contents of `newElements` to the |
| /// string. |
| /// |
| /// - Complexity: O(*n*), where *n* is the combined length of the string and |
| /// `newElements`. |
| @_inlineable // FIXME(sil-serialize-all) |
| public mutating func insert<S : Collection>( |
| contentsOf newElements: S, at i: Index |
| ) where S.Iterator.Element == Character { |
| withMutableCharacters { |
| (v: inout _CharacterView) in v.insert(contentsOf: newElements, at: i) |
| } |
| } |
| |
| /// Removes and returns the character at the specified position. |
| /// |
| /// All the elements following `i` are moved to close the gap. This example |
| /// removes the hyphen from the middle of a string. |
| /// |
| /// var nonempty = "non-empty" |
| /// if let i = nonempty.index(of: "-") { |
| /// nonempty.remove(at: i) |
| /// } |
| /// print(nonempty) |
| /// // Prints "nonempty" |
| /// |
| /// Calling this method invalidates any existing indices for use with this |
| /// string. |
| /// |
| /// - Parameter i: The position of the character to remove. `i` must be a |
| /// valid index of the string that is not equal to the string's end index. |
| /// - Returns: The character that was removed. |
| @_inlineable // FIXME(sil-serialize-all) |
| @discardableResult |
| public mutating func remove(at i: Index) -> Character { |
| return withMutableCharacters { |
| (v: inout _CharacterView) in v.remove(at: i) |
| } |
| } |
| |
| /// Removes the characters in the given range. |
| /// |
| /// Calling this method invalidates any existing indices for use with this |
| /// string. |
| /// |
| /// - Parameter bounds: The range of the elements to remove. The upper and |
| /// lower bounds of `bounds` must be valid indices of the string and not |
| /// equal to the string's end index. |
| /// - Parameter bounds: The range of the elements to remove. The upper and |
| /// lower bounds of `bounds` must be valid indices of the string. |
| @_inlineable // FIXME(sil-serialize-all) |
| public mutating func removeSubrange(_ bounds: Range<Index>) { |
| withMutableCharacters { |
| (v: inout _CharacterView) in v.removeSubrange(bounds) |
| } |
| } |
| |
| /// Replaces this string with the empty string. |
| /// |
| /// Calling this method invalidates any existing indices for use with this |
| /// string. |
| /// |
| /// - Parameter keepCapacity: Pass `true` to prevent the release of the |
| /// string's allocated storage. Retaining the storage can be a useful |
| /// optimization when you're planning to grow the string again. The |
| /// default value is `false`. |
| @_inlineable // FIXME(sil-serialize-all) |
| public mutating func removeAll(keepingCapacity keepCapacity: Bool = false) { |
| withMutableCharacters { |
| (v: inout _CharacterView) in v.removeAll(keepingCapacity: keepCapacity) |
| } |
| } |
| } |
| |
| extension String { |
| // This is needed because of the issue described in SR-4660 which causes |
| // source compatibility issues when String becomes a collection |
| @_inlineable // FIXME(sil-serialize-all) |
| @_transparent |
| public func max<T : Comparable>(_ x: T, _ y: T) -> T { |
| return Swift.max(x,y) |
| } |
| |
| // This is needed because of the issue described in SR-4660 which causes |
| // source compatibility issues when String becomes a collection |
| @_inlineable // FIXME(sil-serialize-all) |
| @_transparent |
| public func min<T : Comparable>(_ x: T, _ y: T) -> T { |
| return Swift.min(x,y) |
| } |
| } |
| |
| //===----------------------------------------------------------------------===// |
| // The following overloads of flatMap are carefully crafted to allow the code |
| // like the following: |
| // ["hello"].flatMap { $0 } |
| // return an array of strings without any type context in Swift 3 mode, at the |
| // same time allowing the following code snippet to compile: |
| // [0, 1].flatMap { x in |
| // if String(x) == "foo" { return "bar" } else { return nil } |
| // } |
| // Note that the second overload is declared on a more specific protocol. |
| // See: test/stdlib/StringFlatMap.swift for tests. |
| extension Sequence { |
| @_inlineable // FIXME(sil-serialize-all) |
| @available(swift, obsoleted: 4) |
| public func flatMap( |
| _ transform: (Element) throws -> String |
| ) rethrows -> [String] { |
| return try map(transform) |
| } |
| } |
| |
| extension Collection { |
| /// Returns an array containing the non-`nil` strings resulting from the given |
| /// transformation on each element of this sequence. |
| /// |
| /// Use this method to receive an array of non-optional strings when your |
| /// transformation produces a `String?`. |
| /// |
| /// In this example, note the difference in the result of using `map` and |
| /// `compactMap` with a transformation that returns a `String?` value. |
| /// |
| /// let errorLookup = [400: "Bad request", |
| /// 403: "Forbidden", |
| /// 404: "Not found"] |
| /// |
| /// let errorCodes = [400, 407, 404] |
| /// |
| /// let mapped: [String?] = errorCodes.map { code in errorLookup[code] } |
| /// // ["Bad request", nil, "Not found"] |
| /// |
| /// let compactMapped: [String] = errorCodes.compactMap { code in errorLookup[code] } |
| /// // ["Bad request", "Not found"] |
| /// |
| /// - Parameter transform: A closure that accepts an element of this |
| /// sequence as its argument and returns a `String?`. |
| /// - 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. |
| @_inlineable // FIXME(sil-serialize-all) |
| public func compactMap( |
| _ transform: (Element) throws -> String? |
| ) rethrows -> [String] { |
| return try _compactMap(transform) |
| } |
| |
| @available(swift, deprecated: 4.1, renamed: "compactMap(_:)", |
| message: "Please use compactMap(_:) for the case where closure returns an optional value") |
| @inline(__always) |
| public func flatMap( |
| _ transform: (Element) throws -> String? |
| ) rethrows -> [String] { |
| return try _compactMap(transform) |
| } |
| } |
| //===----------------------------------------------------------------------===// |
| |
| extension String { |
| @available(*, unavailable, message: "Operator '+' cannot be used to append a String to a sequence of strings") |
| public static func + <S : Sequence>(lhs: S, rhs: String) -> Never |
| where S.Iterator.Element == String { |
| fatalError() |
| } |
| |
| @available(*, unavailable, message: "Operator '+' cannot be used to append a String to a sequence of strings") |
| public static func + <S : Sequence>(lhs: String, rhs: S) -> Never |
| where S.Iterator.Element == String { |
| fatalError() |
| } |
| } |