C#foreach原理
本文主要记录我在学习C#中foreach遍历原理的心得体会。
对集合中的要素进行遍历是所有编码中经常涉及到的操作,因此大部分编程语言都把此过程写进了语法中,比如C#中的foreach。经常会看到下面的遍历代码:
var lstStr = new List<string> { "a", "b" }; foreach (var str in lstStr) { Console.WriteLine(str); }
实际此代码的执行过程:
var lstStr = new List<string> {"a", "b"}; IEnumerator<string> enumeratorLst = lstStr.GetEnumerator(); while (enumeratorLst.MoveNext()) { Console.WriteLine(enumeratorLst.Current); }
会发现有GetEnumerator()方法和IEnumerator<string>类型,这就涉及到可枚举类型和枚举器的概念。
为了方便理解,以下为非泛型示例:
// 摘要: // 公开枚举器,该枚举器支持在非泛型集合上进行简单迭代。 public interface IEnumerable { // 摘要: // 返回一个循环访问集合的枚举器。 // // 返回结果: // 可用于循环访问集合的 System.Collections.IEnumerator 对象。 IEnumerator GetEnumerator(); }
实现了此接口的类称为可枚举类型,是可以用foreach进行遍历的标志。
方法GetEnumerator()的返回值是枚举器,可以理解为游标。
// 摘要: // 支持对非泛型集合的简单迭代。 public interface IEnumerator { // 摘要: // 获取集合中的当前元素。 // // 返回结果: // 集合中的当前元素。 // // 异常: // System.InvalidOperationException: // 枚举数定位在该集合的第一个元素之前或最后一个元素之后。 object Current { get; } // 摘要: // 将枚举数推进到集合的下一个元素。 // // 返回结果: // 如果枚举数成功地推进到下一个元素,则为 true;如果枚举数越过集合的结尾,则为 false。 // // 异常: // System.InvalidOperationException: // 在创建了枚举数后集合被修改了。 bool MoveNext(); // // 摘要: // 将枚举数设置为其初始位置,该位置位于集合中第一个元素之前。 // // 异常: // System.InvalidOperationException: // 在创建了枚举数后集合被修改了。 void Reset(); }
而生成一个枚举器的的工具就是迭代器,以下是自定义一个迭代器的示例(https://msdn.microsoft.com/en-us/library/system.collections.ienumerator.aspx):
using System; using System.Collections; // Simple business object. public class Person { public Person(string fName, string lName) { this.firstName = fName; this.lastName = lName; } public string firstName; public string lastName; } // Collection of Person objects. This class // implements IEnumerable so that it can be used // with ForEach syntax. public class People : IEnumerable { private Person[] _people; public People(Person[] pArray) { _people = new Person[pArray.Length]; for (int i = 0; i < pArray.Length; i++) { _people[i] = pArray[i]; } } // Implementation for the GetEnumerator method. IEnumerator IEnumerable.GetEnumerator() { return (IEnumerator) GetEnumerator(); } public PeopleEnum GetEnumerator() { return new PeopleEnum(_people); } } // When you implement IEnumerable, you must also implement IEnumerator. public class PeopleEnum : IEnumerator { public Person[] _people; // Enumerators are positioned before the first element // until the first MoveNext() call. int position = -1; public PeopleEnum(Person[] list) { _people = list; } public bool MoveNext() { position++; return (position < _people.Length); } public void Reset() { position = -1; } object IEnumerator.Current { get { return Current; } } public Person Current { get { try { return _people[position]; } catch (IndexOutOfRangeException) { throw new InvalidOperationException(); } } } } class App { static void Main() { Person[] peopleArray = new Person[3] { new Person("John", "Smith"), new Person("Jim", "Johnson"), new Person("Sue", "Rabon"), }; People peopleList = new People(peopleArray); foreach (Person p in peopleList) Console.WriteLine(p.firstName + " " + p.lastName); } } /* This code produces output similar to the following: * * John Smith * Jim Johnson * Sue Rabon * */
在有了yield这个关键字以后,我们可以通过这样的方式来创建枚举器:
using System; using System.Collections; // Simple business object. public class Person { public Person(string fName, string lName) { this.firstName = fName; this.lastName = lName; } public string firstName; public string lastName; } // Collection of Person objects. This class // implements IEnumerable so that it can be used // with ForEach syntax. public class People : IEnumerable { private Person[] _people; public People(Person[] pArray) { _people = new Person[pArray.Length]; for (int i = 0; i < pArray.Length; i++) { _people[i] = pArray[i]; } } // Implementation for the GetEnumerator method. IEnumerator IEnumerable.GetEnumerator() { for (int i = 0; i < _people.Length; i++) { yield return _people[i]; } } } class App { static void Main() { Person[] peopleArray = new Person[3] { new Person("John", "Smith"), new Person("Jim", "Johnson"), new Person("Sue", "Rabon"), }; People peopleList = new People(peopleArray); foreach (Person p in peopleList) Console.WriteLine(p.firstName + " " + p.lastName); } }
yield和return一起使用才有意义,这个关键字就是为迭代器服务的,所以有yield所在的方法是迭代器,作用是返回相同类型的值的一个序列,执行到yield return 这个语句之后,函数并不直接返回,而是保存此元素到序列中,继续执行,直到函数体结束或者yield break。
但是生成的此迭代器的函数体并不会在直接调用时运行,只会在foreach中迭代时执行。如:
using System; using System.Collections; using System.Collections.Generic; using System.Reflection; // Simple business object. public class Person { public Person(string fName, string lName) { this.firstName = fName; this.lastName = lName; } public string firstName; public string lastName; } // Collection of Person objects. This class // implements IEnumerable so that it can be used // with ForEach syntax. public class People { private Person[] _people; public People(Person[] pArray) { _people = new Person[pArray.Length]; for (int i = 0; i < pArray.Length; i++) { _people[i] = pArray[i]; } } // Implementation for the GetEnumerator method. public IEnumerable GetMyEnumerator() { Console.WriteLine("a"); for (int i = 0; i < _people.Length; i++) { Console.WriteLine(i.ToString()); yield return _people[i]; } } } class App { static void Main() { Person[] peopleArray = new Person[3] { new Person("John", "Smith"), new Person("Jim", "Johnson"), new Person("Sue", "Rabon"), }; People peopleList = new People(peopleArray); IEnumerable myEnumerator = peopleList.GetMyEnumerator(); Console.WriteLine("Start Iterate"); foreach (Person p in myEnumerator) { Console.WriteLine(p.firstName + " " + p.lastName); } Console.ReadLine(); } }
结果:
转载:https://www.cnblogs.com/alongdada/p/7598119.html
好好学习,天天向上。
