137 lines
3.1 KiB
C#
137 lines
3.1 KiB
C#
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using System.Runtime.InteropServices;
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using static System.Net.Mime.MediaTypeNames;
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namespace Lesson5_泛型
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{
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#region 知识点一 泛型是什么
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//泛型实现了类型参数化,达到了代码重用的目的
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//通过类型参数化来实现同一份代码上操作多种类型
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//泛型相当于类型占位符
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//定义类或方法时使用替代符代表变量类型
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//当真正使用类或方法时再具体指定类型
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#endregion
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#region 知识点二 泛型分类
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//泛型类和泛型接口
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//基本语法:
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//class 类名<泛型占位符>
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//interface 接口名<泛型占位符>
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//泛型占位语法
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//基本语法:函数名<泛型占位符>(参数列表)
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//注意:泛型占位符可以有多个,用逗号分开
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#endregion
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#region 知识点三 泛型类和接口
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class Test<T>
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{
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public T value;
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}
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class Test2<T1, T2, K, M, L>
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{
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public T1 value1;
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public T2 value2;
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public K value3;
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public M value4;
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public L value5;
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}
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interface TestInterface<T>
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{
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T value
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{
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get
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{
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return value;
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}
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set
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{
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this.value = value;
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}
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}
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}
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class Test4 : TestInterface<int>
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{
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//接口实现
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}
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#endregion
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#region 知识点四 泛型方法
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class Test5
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{
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public void TestFun<T>(T value)
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{
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Console.WriteLine(value);
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}
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public void TestFun<T>()
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{
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//用泛型类型做逻辑处理
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T t = default(T);//
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}
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public T TestFun<T>(string v)
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{
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return default(T);
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}
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public void TestFun<T, K, M>(T t,K k,M m)
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{
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}
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}
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class Test5<T>//泛型类和普通类即使只是多加一个泛型也是两个类
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{
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public T value;
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//下面这个不是泛型方法,因为T是泛型类声明时指定的
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//我们就不能再手动指定类型了
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public void TestFun(T t)
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{
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}
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public void TestFun<K>(K k)
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{
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}
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}
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#endregion
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#region 知识点五 泛型的作用
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//1.不同类型的对象的相同逻辑处理可以用泛型
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//2.使用泛型可以一定程度上避免装箱拆箱
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//举例:优化ArrayList
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class ArrayList<T>
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{
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private T[] array;//实现它的增删查改
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}
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#endregion
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internal class Program
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{
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static void Main(string[] args)
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{
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Test<int> t1 = new Test<int>();
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t1.value = 10;
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Console.WriteLine(t1.value);
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Test<string> t2 = new Test<string>();
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t2.value = "test";
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Console.WriteLine(t2.value);
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Test5 t3 = new Test5();
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t3.TestFun<string>("123");
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Test5<int> t4 = new Test5<int>();
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//t4.TestFun<("123");//不能是string了因为声明时是int
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t4.TestFun<string>("123");
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t4.TestFun<float>(1.23f);
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}
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}
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}
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