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static (C# Reference)

Use the static modifier to declare a static member, which belongs to the type itself rather than to a specific object. The static modifier can be used with classes, fields, methods, properties, operators, events, and constructors, but it cannot be used with indexers, destructors, or types other than classes. For more information, see Static Classes and Static Class Members (C# Programming Guide).

Example

The following class is declared as static and contains only static methods:

    static class CompanyEmployee
    {
        public static void DoSomething() { /*...*/ }
        public static void DoSomethingElse() { /*...*/  }
    }

A constant or type declaration is implicitly a static member.

A static member cannot be referenced through an instance. Instead, it is referenced through the type name. For example, consider the following class:

    public class MyBaseC
    {
        public struct MyStruct
        {
            public static int x = 100;
        }
    }

To refer to the static member x, use the fully qualified name, MyBaseC.MyStruct.x, unless the member is accessible from the same scope:

Console.WriteLine(MyBaseC.MyStruct.x);

While an instance of a class contains a separate copy of all instance fields of the class, there is only one copy of each static field.

It is not possible to use this to reference static methods or property accessors.

If the static keyword is applied to a class, all the members of the class must be static.

Classes and static classes may have static constructors. Static constructors are called at some point between when the program starts and the class is instantiated.

Note

The static keyword has more limited uses than in C++. To compare with the C++ keyword, see Static (C++).

To demonstrate static members, consider a class that represents a company employee. Assume that the class contains a method to count employees and a field to store the number of employees. Both the method and the field do not belong to any instance employee. Instead they belong to the company class. Therefore, they should be declared as static members of the class.

This example reads the name and ID of a new employee, increments the employee counter by one, and displays the information for the new employee and the new number of employees. For simplicity, this program reads the current number of employees from the keyboard. In a real application, this information should be read from a file.

    public class Employee4
{
    public string id;
    public string name;

    public Employee4()
    {
    }

    public Employee4(string name, string id)
    {
        this.name = name;
        this.id = id;
    }

    public static int employeeCounter;

    public static int AddEmployee()
    {
        return ++employeeCounter;
    }
}

class MainClass : Employee4
{
    static void Main()
    {
        Console.Write("Enter the employee's name: ");
        string name = Console.ReadLine();
        Console.Write("Enter the employee's ID: ");
        string id = Console.ReadLine();

        // Create and configure the employee object:
        Employee4 e = new Employee4(name, id);
        Console.Write("Enter the current number of employees: ");
        string n = Console.ReadLine();
        Employee4.employeeCounter = Int32.Parse(n);
        Employee4.AddEmployee();

        // Display the new information:
        Console.WriteLine("Name: {0}", e.name);
        Console.WriteLine("ID:   {0}", e.id);
        Console.WriteLine("New Number of Employees: {0}",
                      Employee4.employeeCounter);
    }
}
    /*
    Input:
    Matthias Berndt
    AF643G
    15
    Sample Output:
    Enter the employee's name: Matthias Berndt
    Enter the employee's ID: AF643G
    Enter the current number of employees: 15
    Name: Matthias Berndt
    ID:   AF643G
    New Number of Employees: 16
    */

This example shows that although you can initialize a static field by using another static field not yet declared, the results will be undefined until you explicitly assign a value to the static field.

class Test
{
   static int x = y;
   static int y = 5;

   static void Main()
   {
      Console.WriteLine(Test.x);
      Console.WriteLine(Test.y);

      Test.x = 99;
      Console.WriteLine(Test.x);
   }
}
/*
Output:
    0
    5
    99
*/

C# Language Specification

For more information, see the C# Language Specification. The language specification is the definitive source for C# syntax and usage.

See Also

Reference

C# Keywords

Modifiers (C# Reference)

Static Classes and Static Class Members (C# Programming Guide)

Concepts

C# Programming Guide

Other Resources

C# Reference