C# custom type arrays and Array class-C#.Net Tutorial-php.cn

Home

Backend Development

C#.Net Tutorial

C# custom type arrays and Array class

高洛峰

Dec 16, 2016 pm 02:27 PM

c# array

Array of custom type

using System;    
namespace ConsoleApplication4    
{    
    class Program    
    {    
        static void Main(string[] args)    
        {    
            Person[] myPersons = new Person[2];    
            myPersons[0] = new Person("Lilian", "Chen");    
            myPersons[1] = new Person("1", "2");    
            Console.WriteLine(myPersons[0].ToString());    
            Console.WriteLine(myPersons[1].ToString());    
            // 对自定义类型使用数组初始化器    
            Person[] persons = new Person[] {new Person("a", "b"), new Person("c", "d")};    
            Console.WriteLine(persons[1].ToString());    
            Console.ReadLine();    
        }    
    }    
    public class Person    
    {    
        public Person()    
        { }    
        public Person(string firstName, string lastName)    
        {    
            this.FirstName = firstName;    
            LastName = lastName;    
        }    
        public string FirstName    
        {    
            get;    
            set;    
        }    
        public string LastName    
        {    
            get;    
            set;    
        }    
        public override string ToString()    
        {    
            return String.Format("{0} {1}", FirstName, LastName);    
        }    
    }    
}

Note: If the elements in the array are reference types, memory must be allocated for each array element.

myPersons is a variable stored on the stack that references an array of Person elements stored on the managed heap. Each item in the array references a Person object.

C# custom type arrays and Array class

Create an array

Declaring an array with [] is a notation for using the Array class in C#, and a new class derived from the abstract base class Array will be created behind the scenes. This allows you to use the methods and properties defined by the Array class for each C# array.

The Array class is an abstract class, so you cannot use the constructor to create an array. But in addition to creating an array instance using C# syntax, you can also create an array using the static method CreateInstance() (which can be used if the type of the element is not known in advance).

using System;    
namespace ConsoleApplication5    
{    
    class Program    
    {    
        static void Main(string[] args)    
        {    
            // CreateInstance 方法的第一个参数是元素的类型，第二个参数是数组的大小    
            Array intArray = Array.CreateInstance(typeof(int), 5);    
            for (int i = 0; i < intArray.Length; i++)    
            {    
                // 使用 SetValue() 方法设置值    
                intArray.SetValue(i, i);    
            }    
            for (int i = 0; i < intArray.Length; i++)    
            {    
                // 使用 GetValue() 方法读取值    
                Console.WriteLine(intArray.GetValue(i));    
                Console.ReadLine();    
            }    
            // 将已经创建的数组强制转换成声明为 int[] 的数组    
            int[] intArray1 = (int[])intArray;    
            Console.WriteLine(intArray1.Length);    
        }    
    }    
}

Use the CreateInstance() method to create multi-dimensional arrays and non-0-based arrays:

using System;    
namespace ConsoleApplication4    
{    
    class Program    
    {    
        static void Main(string[] args)    
        {    
            int[] lengths = { 2, 3 };    
            int[] lowerBounds = { 1, 10 };    
            Array racers = Array.CreateInstance(typeof(Person), lengths, lowerBounds);    
            racers.SetValue(new Person("a", "b"), 1, 10);    
            racers.SetValue(new Person("c", "d"), 1, 11);    
            racers.SetValue(new Person("e", "f"), 1, 12);    
            racers.SetValue(new Person("g", "h"), 2, 10);    
            racers.SetValue(new Person("i", "j"), 2, 11);    
            racers.SetValue(new Person("k", "l"), 2, 12);    
            Person[,] racers1 = (Person[,])racers;    
            Person first = racers1[1, 10];    
        }    
    }    
    public class Person    
    {    
        public Person()    
        { }    
        public Person(string firstName, string lastName)    
        {    
            this.FirstName = firstName;    
            LastName = lastName;    
        }    
        public string FirstName    
        {    
            get;    
            set;    
        }    
        public string LastName    
        {    
            get;    
            set;    
        }    
        public override string ToString()    
        {    
            return String.Format("{0} {1}", FirstName, LastName);    
        }    
    }    
}

Copy array

1) If the elements of the array are value types, all values will be copied

int[] intArray1 = { 1, 2 };    
// 如果删掉 “（int[]）” 会有 Error “Cannot implicitly convert type ‘object’ to &#39;int[]&#39;”    
int[] intArray2 = (int[]) intArray1.Clone

C# custom type arrays and Array class

If the array contains If the reference type is a reference type, the element will not be copied, but only the reference will be copied. If you modify the attribute of an element in beatlesClone, the corresponding object in beatles will be changed.

Person[] beatles = { new Person("John", "Lennon"), new Person("Paul", "McCartney") };    
Person[] beatlesClone = (Person[])beatles.Clone();

C# custom type arrays and Array class

For more C# custom type arrays and Array class related articles, please pay attention to the PHP Chinese website!

Statement

The content of this article is voluntarily contributed by netizens, and the copyright belongs to the original author. This site does not assume corresponding legal responsibility. If you find any content suspected of plagiarism or infringement, please contact admin@php.cn

C# .NET: An Introduction to the Powerful Programming LanguageApr 22, 2025 am 12:04 AM

The combination of C# and .NET provides developers with a powerful programming environment. 1) C# supports polymorphism and asynchronous programming, 2) .NET provides cross-platform capabilities and concurrent processing mechanisms, which makes them widely used in desktop, web and mobile application development.

.NET Framework vs. C#: Decoding the TerminologyApr 21, 2025 am 12:05 AM

.NETFramework is a software framework, and C# is a programming language. 1..NETFramework provides libraries and services, supporting desktop, web and mobile application development. 2.C# is designed for .NETFramework and supports modern programming functions. 3..NETFramework manages code execution through CLR, and the C# code is compiled into IL and runs by CLR. 4. Use .NETFramework to quickly develop applications, and C# provides advanced functions such as LINQ. 5. Common errors include type conversion and asynchronous programming deadlocks. VisualStudio tools are required for debugging.

Demystifying C# .NET: An Overview for BeginnersApr 20, 2025 am 12:11 AM

C# is a modern, object-oriented programming language developed by Microsoft, and .NET is a development framework provided by Microsoft. C# combines the performance of C and the simplicity of Java, and is suitable for building various applications. The .NET framework supports multiple languages, provides garbage collection mechanisms, and simplifies memory management.

C# and the .NET Runtime: How They Work TogetherApr 19, 2025 am 12:04 AM

C# and .NET runtime work closely together to empower developers to efficient, powerful and cross-platform development capabilities. 1) C# is a type-safe and object-oriented programming language designed to integrate seamlessly with the .NET framework. 2) The .NET runtime manages the execution of C# code, provides garbage collection, type safety and other services, and ensures efficient and cross-platform operation.

C# .NET Development: A Beginner's Guide to Getting StartedApr 18, 2025 am 12:17 AM

To start C#.NET development, you need to: 1. Understand the basic knowledge of C# and the core concepts of the .NET framework; 2. Master the basic concepts of variables, data types, control structures, functions and classes; 3. Learn advanced features of C#, such as LINQ and asynchronous programming; 4. Be familiar with debugging techniques and performance optimization methods for common errors. With these steps, you can gradually penetrate the world of C#.NET and write efficient applications.

C# and .NET: Understanding the Relationship Between the TwoApr 17, 2025 am 12:07 AM

The relationship between C# and .NET is inseparable, but they are not the same thing. C# is a programming language, while .NET is a development platform. C# is used to write code, compile into .NET's intermediate language (IL), and executed by the .NET runtime (CLR).

The Continued Relevance of C# .NET: A Look at Current UsageApr 16, 2025 am 12:07 AM

C#.NET is still important because it provides powerful tools and libraries that support multiple application development. 1) C# combines .NET framework to make development efficient and convenient. 2) C#'s type safety and garbage collection mechanism enhance its advantages. 3) .NET provides a cross-platform running environment and rich APIs, improving development flexibility.

From Web to Desktop: The Versatility of C# .NETApr 15, 2025 am 12:07 AM

C#.NETisversatileforbothwebanddesktopdevelopment.1)Forweb,useASP.NETfordynamicapplications.2)Fordesktop,employWindowsFormsorWPFforrichinterfaces.3)UseXamarinforcross-platformdevelopment,enablingcodesharingacrossWindows,macOS,Linux,andmobiledevices.

See all articles