vitorventurin/Favorite_Extensions_Swift

## Favorite_Extensions_Swift
// The version of Swift is 4.0.

// Get a class name
public protocol ClassNameProtocol {
    static var className: String { get }
    var className: String { get }
}

public extension ClassNameProtocol {
    public static var className: String {
        return String(describing: self)
    }

    public var className: String {
        return type(of: self).className
    }
}

extension NSObject: ClassNameProtocol {}
UIView.className   //=> "UIView"
UILabel().className //=> "UILabel"
Register / Dequeue XIB
UITableView
public extension UITableView {
    public func register<T: UITableViewCell>(cellType: T.Type, bundle: Bundle? = nil) {
        let className = cellType.className
        let nib = UINib(nibName: className, bundle: bundle)
        register(nib, forCellReuseIdentifier: className)
    }

    public func register<T: UITableViewCell>(cellTypes: [T.Type], bundle: Bundle? = nil) {
        cellTypes.forEach { register(cellType: $0, bundle: bundle) }
    }

    public func dequeueReusableCell<T: UITableViewCell>(with type: T.Type, for indexPath: IndexPath) -> T {
        return self.dequeueReusableCell(withIdentifier: type.className, for: indexPath) as! T
    }
}
tableView.register(cellType: MyCell.self)
tableView.register(cellTypes: [MyCell1.self, MyCell2.self])

let cell = tableView.dequeueReusableCell(with: MyCell.self, for: indexPath)
UICollectionView
public extension UICollectionView {
    public func register<T: UICollectionViewCell>(cellType: T.Type, bundle: Bundle? = nil) {
        let className = cellType.className
        let nib = UINib(nibName: className, bundle: bundle)
        register(nib, forCellWithReuseIdentifier: className)
    }

    public func register<T: UICollectionViewCell>(cellTypes: [T.Type], bundle: Bundle? = nil) {
        cellTypes.forEach { register(cellType: $0, bundle: bundle) }
    }

    public func register<T: UICollectionReusableView>(reusableViewType: T.Type,
                                                      ofKind kind: String = UICollectionElementKindSectionHeader,
                                                      bundle: Bundle? = nil) {
        let className = reusableViewType.className
        let nib = UINib(nibName: className, bundle: bundle)
        register(nib, forSupplementaryViewOfKind: kind, withReuseIdentifier: className)
    }

    public func register<T: UICollectionReusableView>(reusableViewTypes: [T.Type],
                                                      ofKind kind: String = UICollectionElementKindSectionHeader,
                                                      bundle: Bundle? = nil) {
        reusableViewTypes.forEach { register(reusableViewType: $0, ofKind: kind, bundle: bundle) }
    }

    public func dequeueReusableCell<T: UICollectionViewCell>(with type: T.Type,
                                                             for indexPath: IndexPath) -> T {
        return dequeueReusableCell(withReuseIdentifier: type.className, for: indexPath) as! T
    }

    public func dequeueReusableView<T: UICollectionReusableView>(with type: T.Type,
                                                                 for indexPath: IndexPath,
                                                                 ofKind kind: String = UICollectionElementKindSectionHeader) -> T {
        return dequeueReusableSupplementaryView(ofKind: kind, withReuseIdentifier: type.className, for: indexPath) as! T
    }
}
collectionView.register(cellType: MyCell.self)
collectionView.register(cellTypes: [MyCell1.self, MyCell2.self])
let cell = collectionView.dequeueReusableCell(with: MyCell.self, for: indexPath)

collectionView.register(reusableViewType: MyReusableView.self)
collectionView.register(reusableViewTypes: [MyReusableView1.self, MyReusableView2.self])
let view = collectionView.dequeueReusableView(with: MyReusableView.self, for: indexPath)
Instantiate a viewController in a storyboard
public enum StoryboardInstantiateType {
    case initial
    case identifier(String)
}

public protocol StoryboardInstantiatable {
    static var storyboardName: String { get }
    static var storyboardBundle: Bundle { get }
    static var instantiateType: StoryboardInstantiateType { get }
}

public extension StoryboardInstantiatable where Self: NSObject {
    public static var storyboardName: String {
        return className
    }

    public static var storyboardBundle: Bundle {
        return Bundle(for: self)
    }

    private static var storyboard: UIStoryboard {
        return UIStoryboard(name: storyboardName, bundle: storyboardBundle)
    }

    public static var instantiateType: StoryboardInstantiateType {
        return .identifier(className)
    }
}

public extension StoryboardInstantiatable where Self: UIViewController {
    public static func instantiate() -> Self {
        switch instantiateType {
        case .initial:
            return storyboard.instantiateInitialViewController() as! Self
        case .identifier(let identifier):
            return storyboard.instantiateViewController(withIdentifier: identifier) as! Self
        }
    }
}
// Class name and Storyboard name, same as Storyboard ID
final class ViewController: UIViewController, StoryboardInstantiatable {
}

ViewController.instantiate()

// Initial view controller & class name and Storyboard name are the same
final class InitialViewController: UIViewController, StoryboardInstantiatable {
    static var instantiateType: StoryboardInstantiateType {
        return .initial
    }
}

InitialViewController.instantiate()
Instantiate a view in XIB
public protocol NibInstantiatable {
    static var nibName: String { get }
    static var nibBundle: Bundle { get }
    static var nibOwner: Any? { get }
    static var nibOptions: [AnyHashable: Any]? { get }
    static var instantiateIndex: Int { get }
}

public extension NibInstantiatable where Self: NSObject {
    public static var nibName: String { return className }
    public static var nibBundle: Bundle { return Bundle(for: self) }
    public static var nibOwner: Any? { return self }
    public static var nibOptions: [AnyHashable: Any]? { return nil }
    public static var instantiateIndex: Int { return 0 }
}

public extension NibInstantiatable where Self: UIView {
    public static func instantiate() -> Self {
        let nib = UINib(nibName: nibName, bundle: nibBundle)
        return nib.instantiate(withOwner: nibOwner, options: nibOptions)[instantiateIndex] as! Self
    }
}
// XIB name and class name are the same & 0th View
final class View: UIView, NibInstantiatable {
}

View.instantiate()

// XIB name and class name are different & & 2nd View
final class View2: UIView, NibInstantiatable {
    static var nibName: String { return "Foo" } // Foo.xib
    static var instantiateIndex: Int { return 2 }
}

View2.instantiate()
Put a custom view created by Xib in Interface Builder
public protocol EmbeddedNibInstantiatable {
    associatedtype Embedded: NibInstantiatable
}

public extension EmbeddedNibInstantiatable where Self: UIView, Embedded: UIView {
    public var embedded: Embedded { return subviews[0] as! Embedded }

    public func configureEmbededView() {
        let view = Embedded.instantiate()
        insertSubview(view, at: 0)
        view.fillSuperview() // described later
    }
}
final class EmbeddedView: UIView, NibInstantiatable {
}

@IBDesignable
final class IBEmbeddedView: UIView, EmbeddedNibInstantiatable {
    typealias Embedded = EmbeddedView

    #if TARGET_INTERFACE_BUILDER
    override func prepareForInterfaceBuilder() {
        super.prepareForInterfaceBuilder()
        configureEmbededView()
    }
    #endif

    override func awakeFromNib() {
        super.awakeFromNib()
        configureEmbededView()
    }
}
EmbeddedView.xib

IBEmbeddedView

Make a view the same size as the superview
public extension UIView {
    public func fillSuperview() {
        guard let superview = self.superview else { return }
        translatesAutoresizingMaskIntoConstraints = superview.translatesAutoresizingMaskIntoConstraints
        if translatesAutoresizingMaskIntoConstraints {
            autoresizingMask = [.flexibleWidth, .flexibleHeight]
            frame = superview.bounds
        } else {
            topAnchor.constraint(equalTo: superview.topAnchor).isActive = true
            bottomAnchor.constraint(equalTo: superview.bottomAnchor).isActive = true
            leftAnchor.constraint(equalTo: superview.leftAnchor).isActive = true
            rightAnchor.constraint(equalTo: superview.rightAnchor).isActive = true
        }
    }
}
superView.addSubview(view)
view.fillSuperview()
Get the top most UIViewController / UINavigationController
public extension UIApplication {
    public var topViewController: UIViewController? {
        guard var topViewController = UIApplication.shared.keyWindow?.rootViewController else { return nil }

        while let presentedViewController = topViewController.presentedViewController {
            topViewController = presentedViewController
        }
        return topViewController
    }

    public var topNavigationController: UINavigationController? {
        return topViewController as? UINavigationController
    }
}
UIApplication.shared.topViewController
Get a view controller which has the view
public extension UIView {
    public var viewController: UIViewController? {
        var parent: UIResponder? = self
        while parent != nil {
            parent = parent?.next
            if let viewController = parent as? UIViewController {
                return viewController
            }
        }
        return nil
    }
}
view.viewController
Create a UIColor by hexadecimal
public extension UIColor {
    public convenience init(hex: Int, alpha: CGFloat = 1.0) {
        let r = CGFloat((hex & 0xFF0000) >> 16) / 255.0
        let g = CGFloat((hex & 0x00FF00) >> 8) / 255.0
        let b = CGFloat(hex & 0x0000FF) / 255.0
        self.init(red: r, green: g, blue: b, alpha: alpha)
    }
}
let color = UIColor(hex: 0xAABBCC)
Remove elements by the instances in an array
public extension Array where Element: Equatable {
    @discardableResult
    public mutating func remove(element: Element) -> Index? {
        guard let index = index(of: element) else { return nil }
        remove(at: index)
        return index
    }

    @discardableResult
    public mutating func remove(elements: [Element]) -> [Index] {
        return elements.flatMap { remove(element: $0) }
    }
}
let array = ["foo", "bar"]
array.remove(element: "foo")
array //=> ["bar"]
Remove the same value from the array
public extension Array where Element: Hashable {
    public mutating func unify() {
        self = unified()
    }
}

public extension Collection where Element: Hashable {
    public func unified() -> [Element] {
        return Array(Set(self))
    }
}
let array = [1, 2, 3, 3, 2, 1, 4]
array.unify() // [1, 2, 3, 4]
Get an element in safety.
public extension Collection {
    public subscript(safe index: Index) -> Element? {
        return startIndex <= index && index < endIndex ? self[index] : nil
    }
}
let array = [0, 1, 2]
if let item = array[safe: 5] {
    print("unreachable")
}
Get substrings with various ranges
public extension String {
    subscript (bounds: CountableClosedRange<Int>) -> String {
        let start = index(startIndex, offsetBy: bounds.lowerBound)
        let end = index(startIndex, offsetBy: bounds.upperBound)
        return String(self[start...end])
    }

    subscript (bounds: CountableRange<Int>) -> String {
        let start = index(startIndex, offsetBy: bounds.lowerBound)
        let end = index(startIndex, offsetBy: bounds.upperBound)
        return String(self[start..<end])
    }

    subscript (bounds: PartialRangeUpTo<Int>) -> String {
        let end = index(startIndex, offsetBy: bounds.upperBound)
        return String(self[startIndex..<end])
    }

    subscript (bounds: PartialRangeThrough<Int>) -> String {
        let end = index(startIndex, offsetBy: bounds.upperBound)
        return String(self[startIndex...end])
    }

    subscript (bounds: CountablePartialRangeFrom<Int>) -> String {
        let start = index(startIndex, offsetBy: bounds.lowerBound)
        return String(self[start..<endIndex])
    }
}
let string = "0123456789"
string[0...5] //=> "012345"
string[1...3] //=> "123"
string[3..<7] //=> "3456"
string[...4]  //=> "01234
string[..<4]  //=> "0123"
string[4...]  //=> "456789"
Create URL from a string / Create URL from a string literal
public extension String {
    public var url: URL? {
        return URL(string: self)
    }
}

extension URL: ExpressibleByStringLiteral {
    public init(stringLiteral value: String) {
        guard let url = URL(string: value) else {
            fatalError("\(value) is an invalid url")
        }
        self = url
    }

    public init(extendedGraphemeClusterLiteral value: String) {
        self.init(stringLiteral: value)
    }

    public init(unicodeScalarLiteral value: String) {
        self.init(stringLiteral: value)
    }
}
if let url = "https://example.com".url {
}

let url: URL = "https://example.com"
Use Kotlin-like scope function
public protocol Appliable {}

public extension Appliable {
    @discardableResult
    public func apply(closure: (Self) -> Void) -> Self {
        closure(self)
        return self
    }
}

public protocol Runnable {}

public extension Runnable {
    @discardableResult
    public func run<T>(closure: (Self) -> T) -> T {
        return closure(self)
    }
}

extension NSObject: Appliable {}
extension NSObject: Runnable {}
let view = UIView().apply {
    $0.backgroundColor = .red
    $0.frame = .init(x: 0, y: 0, width: 200, height: 200)
}
Throw an error by ??? if the value is nil
infix operator ???

public func ???<T>(lhs: T?,
                   error: @autoclosure () -> Error) throws -> T {
    guard let value = lhs else { throw error() }
    return value
}
let value: String? = nil

struct OptionalError: Error {}

do {
    let v = try value ??? OptionalError()
    print(v) // unreachable
} catch {
    print(error) //=> OptionalError
}
Throw an error if there is no key when getting the value from a dictionary
public struct DictionaryTryValueError: Error {
    public init() {}
}

public extension Dictionary {
    func tryValue(forKey key: Key, error: Error = DictionaryTryValueError()) throws -> Value {
        guard let value = self[key] else { throw error }
        return value
    }
}
var dictionary: [String: Int] = [:]
do {
    let value = try dictionary.tryValue(forKey: "foo")
    print(value) // unreachable
} catch {
    print(error) //=> DictionaryTryValueError
}
Create properties and methods accessible with .ex
public struct TargetedExtension<Base> {
    let base: Base
    init (_ base: Base) {
        self.base = base
    }
}

public protocol TargetedExtensionCompatible {
    associatedtype Compatible
    static var ex: TargetedExtension<Compatible>.Type { get }
    var ex: TargetedExtension<Compatible> { get }
}

public extension TargetedExtensionCompatible {
    public static var ex: TargetedExtension<Self>.Type {
        return TargetedExtension<Self>.self
    }

    public var ex: TargetedExtension<Self> {
        return TargetedExtension(self)
    }
}
extension UIView: TargetedExtensionCompatible {}

private extension TargetedExtension where Base: UIView {
    func foo() {}
}

UIView().ex.foo()
	// The version of Swift is 4.0.

	// Get a class name
	public protocol ClassNameProtocol {
	static var className: String { get }
	var className: String { get }
	}

	public extension ClassNameProtocol {
	public static var className: String {
	return String(describing: self)
	}

	public var className: String {
	return type(of: self).className
	}
	}

	extension NSObject: ClassNameProtocol {}
	UIView.className //=> "UIView"
	UILabel().className //=> "UILabel"
	Register / Dequeue XIB
	UITableView
	public extension UITableView {
	public func register<T: UITableViewCell>(cellType: T.Type, bundle: Bundle? = nil) {
	let className = cellType.className
	let nib = UINib(nibName: className, bundle: bundle)
	register(nib, forCellReuseIdentifier: className)
	}

	public func register<T: UITableViewCell>(cellTypes: [T.Type], bundle: Bundle? = nil) {
	cellTypes.forEach { register(cellType: $0, bundle: bundle) }
	}

	public func dequeueReusableCell<T: UITableViewCell>(with type: T.Type, for indexPath: IndexPath) -> T {
	return self.dequeueReusableCell(withIdentifier: type.className, for: indexPath) as! T
	}
	}
	tableView.register(cellType: MyCell.self)
	tableView.register(cellTypes: [MyCell1.self, MyCell2.self])

	let cell = tableView.dequeueReusableCell(with: MyCell.self, for: indexPath)
	UICollectionView
	public extension UICollectionView {
	public func register<T: UICollectionViewCell>(cellType: T.Type, bundle: Bundle? = nil) {
	let className = cellType.className
	let nib = UINib(nibName: className, bundle: bundle)
	register(nib, forCellWithReuseIdentifier: className)
	}

	public func register<T: UICollectionViewCell>(cellTypes: [T.Type], bundle: Bundle? = nil) {
	cellTypes.forEach { register(cellType: $0, bundle: bundle) }
	}

	public func register<T: UICollectionReusableView>(reusableViewType: T.Type,
	ofKind kind: String = UICollectionElementKindSectionHeader,
	bundle: Bundle? = nil) {
	let className = reusableViewType.className
	let nib = UINib(nibName: className, bundle: bundle)
	register(nib, forSupplementaryViewOfKind: kind, withReuseIdentifier: className)
	}

	public func register<T: UICollectionReusableView>(reusableViewTypes: [T.Type],
	ofKind kind: String = UICollectionElementKindSectionHeader,
	bundle: Bundle? = nil) {
	reusableViewTypes.forEach { register(reusableViewType: $0, ofKind: kind, bundle: bundle) }
	}

	public func dequeueReusableCell<T: UICollectionViewCell>(with type: T.Type,
	for indexPath: IndexPath) -> T {
	return dequeueReusableCell(withReuseIdentifier: type.className, for: indexPath) as! T
	}

	public func dequeueReusableView<T: UICollectionReusableView>(with type: T.Type,
	for indexPath: IndexPath,
	ofKind kind: String = UICollectionElementKindSectionHeader) -> T {
	return dequeueReusableSupplementaryView(ofKind: kind, withReuseIdentifier: type.className, for: indexPath) as! T
	}
	}
	collectionView.register(cellType: MyCell.self)
	collectionView.register(cellTypes: [MyCell1.self, MyCell2.self])
	let cell = collectionView.dequeueReusableCell(with: MyCell.self, for: indexPath)

	collectionView.register(reusableViewType: MyReusableView.self)
	collectionView.register(reusableViewTypes: [MyReusableView1.self, MyReusableView2.self])
	let view = collectionView.dequeueReusableView(with: MyReusableView.self, for: indexPath)
	Instantiate a viewController in a storyboard
	public enum StoryboardInstantiateType {
	case initial
	case identifier(String)
	}

	public protocol StoryboardInstantiatable {
	static var storyboardName: String { get }
	static var storyboardBundle: Bundle { get }
	static var instantiateType: StoryboardInstantiateType { get }
	}

	public extension StoryboardInstantiatable where Self: NSObject {
	public static var storyboardName: String {
	return className
	}

	public static var storyboardBundle: Bundle {
	return Bundle(for: self)
	}

	private static var storyboard: UIStoryboard {
	return UIStoryboard(name: storyboardName, bundle: storyboardBundle)
	}

	public static var instantiateType: StoryboardInstantiateType {
	return .identifier(className)
	}
	}

	public extension StoryboardInstantiatable where Self: UIViewController {
	public static func instantiate() -> Self {
	switch instantiateType {
	case .initial:
	return storyboard.instantiateInitialViewController() as! Self
	case .identifier(let identifier):
	return storyboard.instantiateViewController(withIdentifier: identifier) as! Self
	}
	}
	}
	// Class name and Storyboard name, same as Storyboard ID
	final class ViewController: UIViewController, StoryboardInstantiatable {
	}

	ViewController.instantiate()

	// Initial view controller & class name and Storyboard name are the same
	final class InitialViewController: UIViewController, StoryboardInstantiatable {
	static var instantiateType: StoryboardInstantiateType {
	return .initial
	}
	}

	InitialViewController.instantiate()
	Instantiate a view in XIB
	public protocol NibInstantiatable {
	static var nibName: String { get }
	static var nibBundle: Bundle { get }
	static var nibOwner: Any? { get }
	static var nibOptions: [AnyHashable: Any]? { get }
	static var instantiateIndex: Int { get }
	}

	public extension NibInstantiatable where Self: NSObject {
	public static var nibName: String { return className }
	public static var nibBundle: Bundle { return Bundle(for: self) }
	public static var nibOwner: Any? { return self }
	public static var nibOptions: [AnyHashable: Any]? { return nil }
	public static var instantiateIndex: Int { return 0 }
	}

	public extension NibInstantiatable where Self: UIView {
	public static func instantiate() -> Self {
	let nib = UINib(nibName: nibName, bundle: nibBundle)
	return nib.instantiate(withOwner: nibOwner, options: nibOptions)[instantiateIndex] as! Self
	}
	}
	// XIB name and class name are the same & 0th View
	final class View: UIView, NibInstantiatable {
	}

	View.instantiate()

	// XIB name and class name are different & & 2nd View
	final class View2: UIView, NibInstantiatable {
	static var nibName: String { return "Foo" } // Foo.xib
	static var instantiateIndex: Int { return 2 }
	}

	View2.instantiate()
	Put a custom view created by Xib in Interface Builder
	public protocol EmbeddedNibInstantiatable {
	associatedtype Embedded: NibInstantiatable
	}

	public extension EmbeddedNibInstantiatable where Self: UIView, Embedded: UIView {
	public var embedded: Embedded { return subviews[0] as! Embedded }

	public func configureEmbededView() {
	let view = Embedded.instantiate()
	insertSubview(view, at: 0)
	view.fillSuperview() // described later
	}
	}
	final class EmbeddedView: UIView, NibInstantiatable {
	}

	@IBDesignable
	final class IBEmbeddedView: UIView, EmbeddedNibInstantiatable {
	typealias Embedded = EmbeddedView

	#if TARGET_INTERFACE_BUILDER
	override func prepareForInterfaceBuilder() {
	super.prepareForInterfaceBuilder()
	configureEmbededView()
	}
	#endif

	override func awakeFromNib() {
	super.awakeFromNib()
	configureEmbededView()
	}
	}
	EmbeddedView.xib

	IBEmbeddedView

	Make a view the same size as the superview
	public extension UIView {
	public func fillSuperview() {
	guard let superview = self.superview else { return }
	translatesAutoresizingMaskIntoConstraints = superview.translatesAutoresizingMaskIntoConstraints
	if translatesAutoresizingMaskIntoConstraints {
	autoresizingMask = [.flexibleWidth, .flexibleHeight]
	frame = superview.bounds
	} else {
	topAnchor.constraint(equalTo: superview.topAnchor).isActive = true
	bottomAnchor.constraint(equalTo: superview.bottomAnchor).isActive = true
	leftAnchor.constraint(equalTo: superview.leftAnchor).isActive = true
	rightAnchor.constraint(equalTo: superview.rightAnchor).isActive = true
	}
	}
	}
	superView.addSubview(view)
	view.fillSuperview()
	Get the top most UIViewController / UINavigationController
	public extension UIApplication {
	public var topViewController: UIViewController? {
	guard var topViewController = UIApplication.shared.keyWindow?.rootViewController else { return nil }

	while let presentedViewController = topViewController.presentedViewController {
	topViewController = presentedViewController
	}
	return topViewController
	}

	public var topNavigationController: UINavigationController? {
	return topViewController as? UINavigationController
	}
	}
	UIApplication.shared.topViewController
	Get a view controller which has the view
	public extension UIView {
	public var viewController: UIViewController? {
	var parent: UIResponder? = self
	while parent != nil {
	parent = parent?.next
	if let viewController = parent as? UIViewController {
	return viewController
	}
	}
	return nil
	}
	}
	view.viewController
	Create a UIColor by hexadecimal
	public extension UIColor {
	public convenience init(hex: Int, alpha: CGFloat = 1.0) {
	let r = CGFloat((hex & 0xFF0000) >> 16) / 255.0
	let g = CGFloat((hex & 0x00FF00) >> 8) / 255.0
	let b = CGFloat(hex & 0x0000FF) / 255.0
	self.init(red: r, green: g, blue: b, alpha: alpha)
	}
	}
	let color = UIColor(hex: 0xAABBCC)
	Remove elements by the instances in an array
	public extension Array where Element: Equatable {
	@discardableResult
	public mutating func remove(element: Element) -> Index? {
	guard let index = index(of: element) else { return nil }
	remove(at: index)
	return index
	}

	@discardableResult
	public mutating func remove(elements: [Element]) -> [Index] {
	return elements.flatMap { remove(element: $0) }
	}
	}
	let array = ["foo", "bar"]
	array.remove(element: "foo")
	array //=> ["bar"]
	Remove the same value from the array
	public extension Array where Element: Hashable {
	public mutating func unify() {
	self = unified()
	}
	}

	public extension Collection where Element: Hashable {
	public func unified() -> [Element] {
	return Array(Set(self))
	}
	}
	let array = [1, 2, 3, 3, 2, 1, 4]
	array.unify() // [1, 2, 3, 4]
	Get an element in safety.
	public extension Collection {
	public subscript(safe index: Index) -> Element? {
	return startIndex <= index && index < endIndex ? self[index] : nil
	}
	}
	let array = [0, 1, 2]
	if let item = array[safe: 5] {
	print("unreachable")
	}
	Get substrings with various ranges
	public extension String {
	subscript (bounds: CountableClosedRange<Int>) -> String {
	let start = index(startIndex, offsetBy: bounds.lowerBound)
	let end = index(startIndex, offsetBy: bounds.upperBound)
	return String(self[start...end])
	}

	subscript (bounds: CountableRange<Int>) -> String {
	let start = index(startIndex, offsetBy: bounds.lowerBound)
	let end = index(startIndex, offsetBy: bounds.upperBound)
	return String(self[start..<end])
	}

	subscript (bounds: PartialRangeUpTo<Int>) -> String {
	let end = index(startIndex, offsetBy: bounds.upperBound)
	return String(self[startIndex..<end])
	}

	subscript (bounds: PartialRangeThrough<Int>) -> String {
	let end = index(startIndex, offsetBy: bounds.upperBound)
	return String(self[startIndex...end])
	}

	subscript (bounds: CountablePartialRangeFrom<Int>) -> String {
	let start = index(startIndex, offsetBy: bounds.lowerBound)
	return String(self[start..<endIndex])
	}
	}
	let string = "0123456789"
	string[0...5] //=> "012345"
	string[1...3] //=> "123"
	string[3..<7] //=> "3456"
	string[...4] //=> "01234
	string[..<4] //=> "0123"
	string[4...] //=> "456789"
	Create URL from a string / Create URL from a string literal
	public extension String {
	public var url: URL? {
	return URL(string: self)
	}
	}

	extension URL: ExpressibleByStringLiteral {
	public init(stringLiteral value: String) {
	guard let url = URL(string: value) else {
	fatalError("\(value) is an invalid url")
	}
	self = url
	}

	public init(extendedGraphemeClusterLiteral value: String) {
	self.init(stringLiteral: value)
	}

	public init(unicodeScalarLiteral value: String) {
	self.init(stringLiteral: value)
	}
	}
	if let url = "https://example.com".url {
	}

	let url: URL = "https://example.com"
	Use Kotlin-like scope function
	public protocol Appliable {}

	public extension Appliable {
	@discardableResult
	public func apply(closure: (Self) -> Void) -> Self {
	closure(self)
	return self
	}
	}

	public protocol Runnable {}

	public extension Runnable {
	@discardableResult
	public func run<T>(closure: (Self) -> T) -> T {
	return closure(self)
	}
	}

	extension NSObject: Appliable {}
	extension NSObject: Runnable {}
	let view = UIView().apply {
	$0.backgroundColor = .red
	$0.frame = .init(x: 0, y: 0, width: 200, height: 200)
	}
	Throw an error by ??? if the value is nil
	infix operator ???

	public func ???<T>(lhs: T?,
	error: @autoclosure () -> Error) throws -> T {
	guard let value = lhs else { throw error() }
	return value
	}
	let value: String? = nil

	struct OptionalError: Error {}

	do {
	let v = try value ??? OptionalError()
	print(v) // unreachable
	} catch {
	print(error) //=> OptionalError
	}
	Throw an error if there is no key when getting the value from a dictionary
	public struct DictionaryTryValueError: Error {
	public init() {}
	}

	public extension Dictionary {
	func tryValue(forKey key: Key, error: Error = DictionaryTryValueError()) throws -> Value {
	guard let value = self[key] else { throw error }
	return value
	}
	}
	var dictionary: [String: Int] = [:]
	do {
	let value = try dictionary.tryValue(forKey: "foo")
	print(value) // unreachable
	} catch {
	print(error) //=> DictionaryTryValueError
	}
	Create properties and methods accessible with .ex
	public struct TargetedExtension<Base> {
	let base: Base
	init (_ base: Base) {
	self.base = base
	}
	}

	public protocol TargetedExtensionCompatible {
	associatedtype Compatible
	static var ex: TargetedExtension<Compatible>.Type { get }
	var ex: TargetedExtension<Compatible> { get }
	}

	public extension TargetedExtensionCompatible {
	public static var ex: TargetedExtension<Self>.Type {
	return TargetedExtension<Self>.self
	}

	public var ex: TargetedExtension<Self> {
	return TargetedExtension(self)
	}
	}
	extension UIView: TargetedExtensionCompatible {}

	private extension TargetedExtension where Base: UIView {
	func foo() {}
	}

	UIView().ex.foo()