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LinkedList.swift
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LinkedList.swift
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public final class LinkedList<T> {
/// Linked List's Node Class Declaration
public class LinkedListNode<T> {
var value: T
var next: LinkedListNode?
weak var previous: LinkedListNode?
public init(value: T) {
self.value = value
}
}
/// Typealiasing the node class to increase readability of code
public typealias Node = LinkedListNode<T>
/// The head of the Linked List
private(set) var head: Node?
/// Computed property to iterate through the linked list and return the last node in the list (if any)
public var last: Node? {
guard var node = head else {
return nil
}
while let next = node.next {
node = next
}
return node
}
/// Computed property to check if the linked list is empty
public var isEmpty: Bool {
return head == nil
}
/// Computed property to iterate through the linked list and return the total number of nodes
public var count: Int {
guard var node = head else {
return 0
}
var count = 1
while let next = node.next {
node = next
count += 1
}
return count
}
/// Default initializer
public init() {}
/// Subscript function to return the node at a specific index
///
/// - Parameter index: Integer value of the requested value's index
public subscript(index: Int) -> T {
let node = self.node(at: index)
return node.value
}
/// Function to return the node at a specific index. Crashes if index is out of bounds (0...self.count)
///
/// - Parameter index: Integer value of the node's index to be returned
/// - Returns: LinkedListNode
public func node(at index: Int) -> Node {
assert(head != nil, "List is empty")
assert(index >= 0, "index must be greater or equal to 0")
if index == 0 {
return head!
} else {
var node = head!.next
for _ in 1..<index {
node = node?.next
if node == nil {
break
}
}
assert(node != nil, "index is out of bounds.")
return node!
}
}
/// Append a value to the end of the list
///
/// - Parameter value: The data value to be appended
public func append(_ value: T) {
let newNode = Node(value: value)
append(newNode)
}
/// Append a copy of a LinkedListNode to the end of the list.
///
/// - Parameter node: The node containing the value to be appended
public func append(_ node: Node) {
let newNode = node
if let lastNode = last {
newNode.previous = lastNode
lastNode.next = newNode
} else {
head = newNode
}
}
/// Append a copy of a LinkedList to the end of the list.
///
/// - Parameter list: The list to be copied and appended.
public func append(_ list: LinkedList) {
var nodeToCopy = list.head
while let node = nodeToCopy {
append(node.value)
nodeToCopy = node.next
}
}
/// Insert a value at a specific index. Crashes if index is out of bounds (0...self.count)
///
/// - Parameters:
/// - value: The data value to be inserted
/// - index: Integer value of the index to be insterted at
public func insert(_ value: T, at index: Int) {
let newNode = Node(value: value)
insert(newNode, at: index)
}
/// Insert a copy of a node at a specific index. Crashes if index is out of bounds (0...self.count)
///
/// - Parameters:
/// - node: The node containing the value to be inserted
/// - index: Integer value of the index to be inserted at
public func insert(_ newNode: Node, at index: Int) {
if index == 0 {
newNode.next = head
head?.previous = newNode
head = newNode
} else {
let prev = node(at: index - 1)
let next = prev.next
newNode.previous = prev
newNode.next = next
next?.previous = newNode
prev.next = newNode
}
}
/// Insert a copy of a LinkedList at a specific index. Crashes if index is out of bounds (0...self.count)
///
/// - Parameters:
/// - list: The LinkedList to be copied and inserted
/// - index: Integer value of the index to be inserted at
public func insert(_ list: LinkedList, at index: Int) {
guard !list.isEmpty else { return }
if index == 0 {
list.last?.next = head
head = list.head
} else {
let prev = node(at: index - 1)
let next = prev.next
prev.next = list.head
list.head?.previous = prev
list.last?.next = next
next?.previous = list.last
}
}
/// Function to remove all nodes/value from the list
public func removeAll() {
head = nil
}
/// Function to remove a specific node.
///
/// - Parameter node: The node to be deleted
/// - Returns: The data value contained in the deleted node.
@discardableResult public func remove(node: Node) -> T {
let prev = node.previous
let next = node.next
if let prev = prev {
prev.next = next
} else {
head = next
}
next?.previous = prev
node.previous = nil
node.next = nil
return node.value
}
/// Function to remove the last node/value in the list. Crashes if the list is empty
///
/// - Returns: The data value contained in the deleted node.
@discardableResult public func removeLast() -> T {
assert(!isEmpty)
return remove(node: last!)
}
/// Function to remove a node/value at a specific index. Crashes if index is out of bounds (0...self.count)
///
/// - Parameter index: Integer value of the index of the node to be removed
/// - Returns: The data value contained in the deleted node
@discardableResult public func remove(at index: Int) -> T {
let node = self.node(at: index)
return remove(node: node)
}
}
//: End of the base class declarations & beginning of extensions' declarations:
// MARK: - Extension to enable the standard conversion of a list to String
extension LinkedList: CustomStringConvertible {
public var description: String {
var s = "["
var node = head
while let nd = node {
s += "\(nd.value)"
node = nd.next
if node != nil { s += ", " }
}
return s + "]"
}
}
// MARK: - Extension to add a 'reverse' function to the list
extension LinkedList {
public func reverse() {
var node = head
while let currentNode = node {
node = currentNode.next
swap(¤tNode.next, ¤tNode.previous)
head = currentNode
}
}
}
// MARK: - An extension with an implementation of 'map' & 'filter' functions
extension LinkedList {
public func map<U>(transform: (T) -> U) -> LinkedList<U> {
let result = LinkedList<U>()
var node = head
while let nd = node {
result.append(transform(nd.value))
node = nd.next
}
return result
}
public func filter(predicate: (T) -> Bool) -> LinkedList<T> {
let result = LinkedList<T>()
var node = head
while let nd = node {
if predicate(nd.value) {
result.append(nd.value)
}
node = nd.next
}
return result
}
}
// MARK: - Extension to enable initialization from an Array
extension LinkedList {
convenience init(array: Array<T>) {
self.init()
array.forEach { append($0) }
}
}
// MARK: - Extension to enable initialization from an Array Literal
extension LinkedList: ExpressibleByArrayLiteral {
public convenience init(arrayLiteral elements: T...) {
self.init()
elements.forEach { append($0) }
}
}
// MARK: - Collection
extension LinkedList: Collection {
public typealias Index = LinkedListIndex<T>
/// The position of the first element in a nonempty collection.
///
/// If the collection is empty, `startIndex` is equal to `endIndex`.
/// - Complexity: O(1)
public var startIndex: Index {
get {
return LinkedListIndex<T>(node: head, tag: 0)
}
}
/// The collection's "past the end" position---that is, the position one
/// greater than the last valid subscript argument.
/// - Complexity: O(n), where n is the number of elements in the list. This can be improved by keeping a reference
/// to the last node in the collection.
public var endIndex: Index {
get {
if let h = self.head {
return LinkedListIndex<T>(node: h, tag: count)
} else {
return LinkedListIndex<T>(node: nil, tag: startIndex.tag)
}
}
}
public subscript(position: Index) -> T {
get {
return position.node!.value
}
}
public func index(after idx: Index) -> Index {
return LinkedListIndex<T>(node: idx.node?.next, tag: idx.tag + 1)
}
}
// MARK: - Collection Index
/// Custom index type that contains a reference to the node at index 'tag'
public struct LinkedListIndex<T>: Comparable {
fileprivate let node: LinkedList<T>.LinkedListNode<T>?
fileprivate let tag: Int
public static func==<T>(lhs: LinkedListIndex<T>, rhs: LinkedListIndex<T>) -> Bool {
return (lhs.tag == rhs.tag)
}
public static func< <T>(lhs: LinkedListIndex<T>, rhs: LinkedListIndex<T>) -> Bool {
return (lhs.tag < rhs.tag)
}
}