//===--- CollectionAlgorithms.swift.gyb -----------------------*- swift -*-===// // // This source file is part of the Swift.org open source project // // Copyright (c) 2014 - 2018 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 // //===----------------------------------------------------------------------===// //===----------------------------------------------------------------------===// // last //===----------------------------------------------------------------------===// extension BidirectionalCollection { /// 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" @inlinable public var last: Element? { return isEmpty ? nil : self[index(before: endIndex)] } } //===----------------------------------------------------------------------===// // firstIndex(of:)/firstIndex(where:) //===----------------------------------------------------------------------===// extension Collection where Element : Equatable { /// Returns the first index where the specified value appears in the /// collection. /// /// After using `firstIndex(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.firstIndex(of: "Maxime") { /// students[i] = "Max" /// } /// print(students) /// // Prints "["Ben", "Ivy", "Jordell", "Max"]" /// /// - Parameter 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`. @inlinable public func firstIndex(of element: Element) -> Index? { if let result = _customIndexOfEquatableElement(element) { return result } var i = self.startIndex while i != self.endIndex { if self[i] == element { return i } self.formIndex(after: &i) } return nil } /// Returns the first index where the specified value appears in the /// collection. @inlinable public func index(of _element: Element) -> Index? { return firstIndex(of: _element) } } extension Collection { /// 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.firstIndex(where: { $0.hasPrefix("A") }) { /// print("\(students[i]) starts with 'A'!") /// } /// // Prints "Abena starts with 'A'!" /// /// - Parameter 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`. @inlinable public func firstIndex( where predicate: (Element) throws -> Bool ) rethrows -> Index? { var i = self.startIndex while i != self.endIndex { if try predicate(self[i]) { return i } self.formIndex(after: &i) } return nil } /// Returns the first index in which an element of the collection satisfies /// the given predicate. @inlinable public func index( where _predicate: (Element) throws -> Bool ) rethrows -> Index? { return try firstIndex(where: _predicate) } } //===----------------------------------------------------------------------===// // lastIndex(of:)/lastIndex(where:) //===----------------------------------------------------------------------===// extension BidirectionalCollection { /// Returns the last element of the sequence that satisfies the given /// predicate. /// /// This example uses the `last(where:)` method to find the last /// negative number in an array of integers: /// /// let numbers = [3, 7, 4, -2, 9, -6, 10, 1] /// if let lastNegative = numbers.last(where: { $0 < 0 }) { /// print("The last negative number is \(firstNegative).") /// } /// // Prints "The last negative number is -6." /// /// - Parameter 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 last element of the sequence that satisfies `predicate`, /// or `nil` if there is no element that satisfies `predicate`. @inlinable public func last( where predicate: (Element) throws -> Bool ) rethrows -> Element? { return try lastIndex(where: predicate).map { self[$0] } } /// Returns the index of the last element in the collection that matches 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. This example finds the index of the last name that /// begins with the letter "A": /// /// let students = ["Kofi", "Abena", "Peter", "Kweku", "Akosua"] /// if let i = students.lastIndex(where: { $0.hasPrefix("A") }) { /// print("\(students[i]) starts with 'A'!") /// } /// // Prints "Akosua starts with 'A'!" /// /// - Parameter 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 last element in the collection that matches /// `predicate`, or `nil` if no elements match. @inlinable public func lastIndex( where predicate: (Element) throws -> Bool ) rethrows -> Index? { var i = endIndex while i != startIndex { formIndex(before: &i) if try predicate(self[i]) { return i } } return nil } } extension BidirectionalCollection where Element : Equatable { /// Returns the last index where the specified value appears in the /// collection. /// /// After using `lastIndex(of:)` to find the position of the last instance 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", "Ben", "Maxime"] /// if let i = students.lastIndex(of: "Ben") { /// students[i] = "Benjamin" /// } /// print(students) /// // Prints "["Ben", "Ivy", "Jordell", "Benjamin", "Max"]" /// /// - Parameter element: An element to search for in the collection. /// - Returns: The last index where `element` is found. If `element` is not /// found in the collection, returns `nil`. @inlinable public func lastIndex(of element: Element) -> Index? { if let result = _customLastIndexOfEquatableElement(element) { return result } return lastIndex(where: { $0 == element }) } } //===----------------------------------------------------------------------===// // partition(by:) //===----------------------------------------------------------------------===// extension MutableCollection { /// Reorders the elements of the collection such that all the elements /// that match the given predicate are after all the elements that don't /// match. /// /// After partitioning a collection, there is a pivot index `p` where /// no element before `p` satisfies the `belongsInSecondPartition` /// predicate and every element at or after `p` satisfies /// `belongsInSecondPartition`. /// /// In the following example, an array of numbers is partitioned by a /// predicate that matches elements greater than 30. /// /// var numbers = [30, 40, 20, 30, 30, 60, 10] /// let p = numbers.partition(by: { $0 > 30 }) /// // p == 5 /// // numbers == [30, 10, 20, 30, 30, 60, 40] /// /// The `numbers` array is now arranged in two partitions. The first /// partition, `numbers[.. Bool ) rethrows -> Index { return try _halfStablePartition(isSuffixElement: belongsInSecondPartition) } /// Moves all elements satisfying `isSuffixElement` into a suffix of the /// collection, returning the start position of the resulting suffix. /// /// - Complexity: O(*n*) where n is the length of the collection. @inlinable internal mutating func _halfStablePartition( isSuffixElement: (Element) throws -> Bool ) rethrows -> Index { guard var i = try firstIndex(where: isSuffixElement) else { return endIndex } var j = index(after: i) while j != endIndex { if try !isSuffixElement(self[j]) { swapAt(i, j); formIndex(after: &i) } formIndex(after: &j) } return i } } extension MutableCollection where Self : BidirectionalCollection { /// Reorders the elements of the collection such that all the elements /// that match the given predicate are after all the elements that don't /// match. /// /// After partitioning a collection, there is a pivot index `p` where /// no element before `p` satisfies the `belongsInSecondPartition` /// predicate and every element at or after `p` satisfies /// `belongsInSecondPartition`. /// /// In the following example, an array of numbers is partitioned by a /// predicate that matches elements greater than 30. /// /// var numbers = [30, 40, 20, 30, 30, 60, 10] /// let p = numbers.partition(by: { $0 > 30 }) /// // p == 5 /// // numbers == [30, 10, 20, 30, 30, 60, 40] /// /// The `numbers` array is now arranged in two partitions. The first /// partition, `numbers[.. Bool ) rethrows -> Index { let maybeOffset = try _withUnsafeMutableBufferPointerIfSupported { (bufferPointer) -> Int in let unsafeBufferPivot = try bufferPointer.partition( by: belongsInSecondPartition) return unsafeBufferPivot - bufferPointer.startIndex } if let offset = maybeOffset { return index(startIndex, offsetBy: numericCast(offset)) } var lo = startIndex var hi = endIndex // 'Loop' invariants (at start of Loop, all are true): // * lo < hi // * predicate(self[i]) == false, for i in startIndex ..< lo // * predicate(self[i]) == true, for i in hi ..< endIndex Loop: while true { FindLo: repeat { while lo < hi { if try belongsInSecondPartition(self[lo]) { break FindLo } formIndex(after: &lo) } break Loop } while false FindHi: repeat { formIndex(before: &hi) while lo < hi { if try !belongsInSecondPartition(self[hi]) { break FindHi } formIndex(before: &hi) } break Loop } while false swapAt(lo, hi) formIndex(after: &lo) } return lo } } //===----------------------------------------------------------------------===// // shuffled()/shuffle() //===----------------------------------------------------------------------===// extension Sequence { /// Returns the elements of the sequence, shuffled using the given generator /// as a source for randomness. /// /// You use this method to randomize the elements of a sequence when you /// are using a custom random number generator. For example, you can shuffle /// the numbers between `0` and `9` by calling the `shuffled(using:)` method /// on that range: /// /// let numbers = 0...9 /// let shuffledNumbers = numbers.shuffled(using: &myGenerator) /// // shuffledNumbers == [8, 9, 4, 3, 2, 6, 7, 0, 5, 1] /// /// - Parameter generator: The random number generator to use when shuffling /// the sequence. /// - Returns: An array of this sequence's elements in a shuffled order. /// /// - Complexity: O(*n*) @inlinable public func shuffled( using generator: inout T ) -> [Element] { var result = ContiguousArray(self) result.shuffle(using: &generator) return Array(result) } /// Returns the elements of the sequence, shuffled. /// /// For example, you can shuffle the numbers between `0` and `9` by calling /// the `shuffled()` method on that range: /// /// let numbers = 0...9 /// let shuffledNumbers = numbers.shuffled() /// // shuffledNumbers == [1, 7, 6, 2, 8, 9, 4, 3, 5, 0] /// /// This method uses the default random generator, `Random.default`. The call /// to `numbers.shuffled()` above is equivalent to calling /// `numbers.shuffled(using: &Random.default)`. /// /// - Returns: A shuffled array of this sequence's elements. /// /// - Complexity: O(*n*) @inlinable public func shuffled() -> [Element] { return shuffled(using: &Random.default) } } extension MutableCollection where Self : RandomAccessCollection { /// Shuffles the collection in place, using the given generator as a source /// for randomness. /// /// You use this method to randomize the elements of a collection when you /// are using a custom random number generator. For example, you can use the /// `shuffle(using:)` method to randomly reorder the elements of an array. /// /// var names = ["Alejandro", "Camila", "Diego", "Luciana", "Luis", "Sofía"] /// names.shuffle(using: &myGenerator) /// // names == ["Sofía", "Alejandro", "Camila", "Luis", "Diego", "Luciana"] /// /// - Parameter generator: The random number generator to use when shuffling /// the collection. /// /// - Complexity: O(*n*) @inlinable public mutating func shuffle( using generator: inout T ) { let count = self.count guard count > 1 else { return } var amount = count var currentIndex = startIndex while amount > 1 { let random = generator.next(upperBound: UInt(amount)) amount -= 1 swapAt( currentIndex, index(currentIndex, offsetBy: numericCast(random)) ) formIndex(after: ¤tIndex) } } /// Shuffles the collection in place. /// /// Use the `shuffle()` method to randomly reorder the elements of an /// array. /// /// var names = ["Alejandro", "Camila", "Diego", "Luciana", "Luis", "Sofía"] /// names.shuffle(using: myGenerator) /// // names == ["Luis", "Camila", "Luciana", "Sofía", "Alejandro", "Diego"] /// /// This method uses the default random generator, `Random.default`. The call /// to `names.shuffle()` above is equivalent to calling /// `names.shuffle(using: &Random.default)`. /// /// - Complexity: O(*n*) @inlinable public mutating func shuffle() { shuffle(using: &Random.default) } }