一个朴实无华的目录
今日学习内容:
1.Swift 继承
1.1基类和子类
class StudDetails
{
var mark1: Int;
var mark2: Int;
init(stm1:Int, results stm2:Int)
{
mark1 = stm1;
mark2 = stm2;
}
func show()
{
print("Mark1:\(self.mark1), Mark2:\(self.mark2)")
}
}
class Tom : StudDetails
{
init()
{
super.init(stm1: 93, results: 89)
}
}
let tom = Tom()
tom.show()
以上程序执行输出结果为:
Mark1:93, Mark2:89
1.2 重写
1.2.1重写方法
class SuperClass {
func show() {
print("这是超类 SuperClass")
}
}
class SubClass: SuperClass {
override func show() {
print("这是子类 SubClass")
}
}
let superClass = SuperClass()
superClass.show()
let subClass = SubClass()
subClass.show()
以上程序执行输出结果为:
这是超类 SuperClass
这是子类 SubClass
1.2.2重写属性 并观察
class Circle {
var radius = 12.5
var area: String {
return "矩形半径 \(radius) "
}
}
// 继承超类 Circle
class Rectangle: Circle {
var print = 7
override var area: String {
return super.area + " ,但现在被重写为 \(print)"
}
}
let rect = Rectangle()
rect.radius = 25.0
rect.print = 3
print("Radius \(rect.area)")
class Square: Rectangle {
override var radius: Double {
didSet {
print = Int(radius/5.0)+1
}
}
}
let sq = Square()
sq.radius = 100.0
print("半径: \(sq.area)")
1.3 使用 final 关键字防止它们被重写。
在关键字class前添加final特性(final class)来将整个类标记为 final 的,这样的类是不可被继承的,否则会报编译错误。
2.Swift 构造过程:Swift 构造函数使用 init() 方法。
2.1 在定义构造器 init() 时提供构造参数
struct Rectangle {
var length: Double
var breadth: Double
var area: Double
init(fromLength length: Double, fromBreadth breadth: Double) {
self.length = length
self.breadth = breadth
area = length * breadth
}
init(fromLeng leng: Double, fromBread bread: Double) {
self.length = leng
self.breadth = bread
area = leng * bread
}
}
let ar = Rectangle(fromLength: 6, fromBreadth: 12)
print("面积为: \(ar.area)")
let are = Rectangle(fromLeng: 36, fromBread: 12)
print("面积为: \(are.area)")
2.2 内部和外部参数名
struct Color {
let red, green, blue: Double
init(red: Double, green: Double, blue: Double) {
self.red = red
self.green = green
self.blue = blue
}
init(white: Double) {
red = white
green = white
blue = white
}
}
// 创建一个新的Color实例,通过三种颜色的外部参数名来传值,并调用构造器
let magenta = Color(red: 1.0, green: 0.0, blue: 1.0)
print("red 值为: \(magenta.red)")
print("green 值为: \(magenta.green)")
print("blue 值为: \(magenta.blue)")
// 创建一个新的Color实例,通过三种颜色的外部参数名来传值,并调用构造器
let halfGray = Color(white: 0.5)
print("red 值为: \(halfGray.red)")
print("green 值为: \(halfGray.green)")
print("blue 值为: \(halfGray.blue)")
以上程序执行输出结果为:
red 值为: 1.0
green 值为: 0.0
blue 值为: 1.0
red 值为: 0.5
green 值为: 0.5
blue 值为: 0.5
2.3 可选属性类型
定义为可选类型optional type(可选属性类型)。
当存储属性声明为可选时,将自动初始化为空 nil。
struct Rectangle {
var length: Double?
init(frombreadth breadth: Double) {
length = breadth * 10
}
init(frombre bre: Double) {
length = bre * 30
}
init(_ area: Double) {
length = area
}
}
let rectarea = Rectangle(180.0)
print("面积为:\(rectarea.length)")
let rearea = Rectangle(370.0)
print("面积为:\(rearea.length)")
let recarea = Rectangle(110.0)
print("面积为:\(recarea.length)")
以上程序执行输出结果为:
面积为:Optional(180.0)
面积为:Optional(370.0)
面积为:Optional(110.0)
2.4 默认构造器
class ShoppingListItem {
var name: String?
var quantity = 1
var purchased = false
}
var item = ShoppingListItem()
print("名字为: \(item.name)")
print("数理为: \(item.quantity)")
print("是否付款: \(item.purchased)")
以上程序执行输出结果为:
名字为: nil
数理为: 1
是否付款: false
2.5 值类型的构造器代理:调用其它构造器来完成实例的部分构造过程
struct Size {
var width = 0.0, height = 0.0
}
struct Point {
var x = 0.0, y = 0.0
}
struct Rect {
var origin = Point()
var size = Size()
init() {}
init(origin: Point, size: Size) {
self.origin = origin
self.size = size
}
init(center: Point, size: Size) {
let originX = center.x - (size.width / 2)
let originY = center.y - (size.height / 2)
self.init(origin: Point(x: originX, y: originY), size: size)
}
}
// origin和size属性都使用定义时的默认值Point(x: 0.0, y: 0.0)和Size(width: 0.0, height: 0.0):
let basicRect = Rect()
print("Size 结构体初始值: \(basicRect.size.width, basicRect.size.height) ")
print("Rect 结构体初始值: \(basicRect.origin.x, basicRect.origin.y) ")
// 将origin和size的参数值赋给对应的存储型属性
let originRect = Rect(origin: Point(x: 2.0, y: 2.0),
size: Size(width: 5.0, height: 5.0))
print("Size 结构体初始值: \(originRect.size.width, originRect.size.height) ")
print("Rect 结构体初始值: \(originRect.origin.x, originRect.origin.y) ")
//先通过center和size的值计算出origin的坐标。
//然后再调用(或代理给)init(origin:size:)构造器来将新的origin和size值赋值到对应的属性中
let centerRect = Rect(center: Point(x: 4.0, y: 4.0),
size: Size(width: 3.0, height: 3.0))
print("Size 结构体初始值: \(centerRect.size.width, centerRect.size.height) ")
print("Rect 结构体初始值: \(centerRect.origin.x, centerRect.origin.y) ")
以上程序执行输出结果为:
Size 结构体初始值: (0.0, 0.0)
Rect 结构体初始值: (0.0, 0.0)
Size 结构体初始值: (5.0, 5.0)
Rect 结构体初始值: (2.0, 2.0)
Size 结构体初始值: (3.0, 3.0)
Rect 结构体初始值: (2.5, 2.5)
2.6 重写一个父类指定构造器时,你需要写override修饰符。
class SuperClass {
var corners = 4
var description: String {
return "\(corners) 边"
}
}
let rectangle = SuperClass()
print("矩形: \(rectangle.description)")
class SubClass: SuperClass {
override init() { //重载构造器
super.init()
corners = 5
}
}
let subClass = SubClass()
print("五角型: \(subClass.description)")
以上程序执行输出结果为:
矩形: 4 边
五角型: 5 边
2.7 关键字后添加问号的方式(init?)来定义一个可失败构造器
class Planet {
var name: String
init(name: String) {
self.name = name
}
convenience init() {
self.init(name: "[No Planets]")
}
}
let plName = Planet(name: "Mercury")
print("行星的名字是: \(plName.name)")
let noplName = Planet()
print("没有这个名字的行星: \(noplName.name)")
class planets: Planet {
var count: Int
init(name: String, count: Int) {
self.count = count
super.init(name: name)
}
override convenience init(name: String) {
self.init(name: name, count: 1)
}
}
以上程序执行输出结果为:
行星的名字是: Mercury
没有这个名字的行星: [No Planets]
3.Swift 析构过程
var counter = 0; // 引用计数器
class BaseClass {
init() {
counter += 1;
}
deinit {
counter -= 1;
}
}
var show: BaseClass? = BaseClass()
print(counter)
show = nil
print(counter)
以上程序执行输出结果为:
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