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Enum Structure

Provides the base class for enumerations.

Namespace: System
Assembly: mscorlib (in mscorlib.dll)

[SerializableAttribute] 
[ComVisibleAttribute(true)] 
public ref class Enum abstract : public ValueType, IComparable, IFormattable, IConvertible
/** @attribute SerializableAttribute() */ 
/** @attribute ComVisibleAttribute(true) */ 
public abstract class Enum extends ValueType implements IComparable, IFormattable, 
	IConvertible
SerializableAttribute 
ComVisibleAttribute(true) 
public abstract class Enum extends ValueType implements IComparable, IFormattable, 
	IConvertible
Not applicable.

An enumeration is a named constant whose underlying type is any integral type except Char. If no underlying type is explicitly declared, Int32 is used. Programming languages typically provide syntax to declare an enumeration that consists of a set of named constants and their values.

Enum provides methods to compare instances of this class, convert the value of an instance to its string representation, convert the string representation of a number to an instance of this class, and create an instance of a specified enumeration and value.

You can also treat an enumeration as a bit field. For more information, see FlagsAttribute.

Implemented Interfaces

This class inherits from ValueType, and implements the IComparable, IFormattable, and IConvertible interfaces. Use the Convert class for conversions instead of this class' explicit interface member implementation of IConvertible.

Guidelines for FlagsAttribute and Enum

  • Use the FlagsAttribute custom attribute for an enumeration only if a bitwise operation (AND, OR, EXCLUSIVE OR) is to be performed on a numeric value.

  • Define enumeration constants in powers of two, that is, 1, 2, 4, 8, and so on. This means the individual flags in combined enumeration constants do not overlap.

  • Consider creating an enumerated constant for commonly used flag combinations. For example, if you have an enumeration used for file I/O operations that contains the enumerated constants Read = 1 and Write = 2, consider creating the enumerated constant ReadWrite = Read OR Write, which combines the Read and Write flags. In addition, the bitwise OR operation used to combine the flags might be considered an advanced concept in some circumstances that should not be required for simple tasks.

  • Use caution if you define a negative number as a flag enumerated constant because many flag positions might be set to 1, which might make your code confusing and encourage coding errors.

  • A convenient way to test whether a flag is set in a numeric value is to perform a bitwise AND operation between the numeric value and the flag enumerated constant, which sets all bits in the numeric value to zero that do not correspond to the flag, then test whether the result of that operation is equal to the flag enumerated constant.

  • Use None as the name of the flag enumerated constant whose value is zero. You cannot use the None enumerated constant in a bitwise AND operation to test for a flag because the result is always zero. However, you can perform a logical, not a bitwise, comparison between the numeric value and the None enumerated constant to determine whether any bits in the numeric value are set.

    If you create a value enumeration instead of a flags enumeration, it is still worthwhile to create a None enumerated constant. The reason is that by default the memory used for the enumeration is initialized to zero by the common language runtime. Consequently, if you do not define a constant whose value is zero, the enumeration will contain an illegal value when it is created.

    If there is an obvious default case your application needs to represent, consider using an enumerated constant whose value is zero to represent the default. If there is no default case, consider using an enumerated constant whose value is zero that means the case that is not represented by any of the other enumerated constants.

  • Do not define an enumeration value solely to mirror the state of the enumeration itself. For example, do not define an enumerated constant that merely marks the end of the enumeration. If you need to determine the last value of the enumeration, check for that value explicitly. In addition, you can perform a range check for the first and last enumerated constant if all values within the range are valid.

  • Do not specify enumerated constants that are reserved for future use.

  • When you define a method or property that takes an enumerated constant as a value, consider validating the value. The reason is that you can cast a numeric value to the enumeration type even if that numeric value is not defined in the enumeration.

The following example demonstrates using an enumeration to represent named values and another enumeration to represent named bit fields.

using namespace System;
enum class Days
{
   Saturday, Sunday, Monday, Tuesday, Wednesday, Thursday, Friday
};

enum class BoilingPoints
{
   Celcius = 100,
   Fahrenheit = 212
};

[FlagsAttribute]

enum class Colors
{
   Red = 1,
   Green = 2,
   Blue = 4,
   Yellow = 8
};

int main()
{
   Type^ weekdays = Days::typeid;
   Type^ boiling = BoilingPoints::typeid;
   Console::WriteLine(  "The days of the week, and their corresponding values in the Days Enum are:" );
   Array^ a = Enum::GetNames( weekdays );
   Int32 i = 0;
   do
   {
      Object^ o = a->GetValue( i );
      Console::WriteLine(  "{0,-11}= {1}", o->ToString(), Enum::Format( weekdays, Enum::Parse( weekdays, o->ToString() ),  "d" ) );
   }
   while ( ++i < a->Length );

   Console::WriteLine();
   Console::WriteLine(  "Enums can also be created which have values that represent some meaningful amount." );
   Console::WriteLine(  "The BoilingPoints Enum defines the following items, and corresponding values:" );
   i = 0;
   Array^ b = Enum::GetNames( boiling );
   do
   {
      Object^ o = b->GetValue( i );
      Console::WriteLine(  "{0,-11}= {1}", o->ToString(), Enum::Format( boiling, Enum::Parse( boiling, o->ToString() ),  "d" ) );
   }
   while ( ++i < b->Length );

   Array^ c = Enum::GetNames( Colors::typeid );
   Colors myColors = Colors::Red | Colors::Blue | Colors::Yellow;
   Console::WriteLine();
   Console::Write(  "myColors holds a combination of colors. Namely:" );
   for ( i = 0; i < 3; i++ )
      Console::Write(  " {0}", c->GetValue( i ) );
}

import System.*;

public class EnumTest
{
    enum Days
    {
        saturday (0),
        sunday (1),
        monday (2),
        tuesday (3),
        wednesday (4),
        thursday (5),
        friday (6);
    } //Days

    enum BoilingPoints
    {
        celsius (100),
        fahrenheit (212);
    } //BoilingPoints

    /** @attribute FlagsAttribute()
     */
    enum Colors
    {
        red (1),
        green (2),
        blue (4),
        yellow (8);
    } //Colors

    public static void main(String[] args)
    {
        Type weekdays = Days.class.ToType();
        Type boiling = BoilingPoints.class.ToType();

        Console.WriteLine("The days of the week, and their corresponding"
            + " values in the Days Enum are:");
        String s[] = Enum.GetNames(weekdays);
        for (int iCtr = 0; iCtr < s.length; iCtr++) {
            Console.WriteLine("{0,-11}= {1}", s[iCtr],
                Enum.Format(weekdays, Enum.Parse(weekdays, s[iCtr]), "d"));
        }

        Console.WriteLine();
        Console.WriteLine("Enums can also be created which have values that"
            + " represent some meaningful amount.");
        Console.WriteLine("The BoilingPoints Enum defines the following items,"
            + " and corresponding values:");
        String s1[] = Enum.GetNames(boiling);
        for (int iCtr = 0; iCtr < s1.length; iCtr++) {
            Console.WriteLine("{0,-11}= {1}", s1[iCtr], 
                Enum.Format(boiling, Enum.Parse(boiling, s1[iCtr]), "d"));
        }
        Colors myColors = Colors.red | Colors.blue | Colors.yellow;
        Console.WriteLine();
        Console.WriteLine("myColors holds a combination of colors. Namely: {0}",
            myColors);
    } //main
} //EnumTest

import System;

public class EnumTest {
    enum Days { Saturday, Sunday, Monday, Tuesday, Wednesday, Thursday, Friday };
    enum BoilingPoints { Celcius = 100, Fahrenheit = 212 };
    FlagsAttribute
    enum Colors { Red = 1, Green = 2, Blue = 4, Yellow = 8 };

    public static function Main() {

        var weekdays : Type = Days;
        var boiling : Type = BoilingPoints;

        Console.WriteLine("The days of the week, and their corresponding values in the Days Enum are:");

        for( var i : int in Enum.GetNames(weekdays) )
            Console.WriteLine( "{0,-11}= {1}", Enum.GetNames(weekdays).GetValue(i), 
			Enum.Format( weekdays, Enum.Parse(weekdays, Enum.GetNames(weekdays).GetValue(i)), "d"));

        Console.WriteLine();
        Console.WriteLine("Enums can also be created which have values that represent some meaningful amount.");
        Console.WriteLine("The BoilingPoints Enum defines the following items, and corresponding values:");

        for ( var j : int in Enum.GetNames(boiling) )
            Console.WriteLine( "{0,-11}= {1}", Enum.GetNames(boiling).GetValue(j), 
			Enum.Format(boiling, Enum.Parse(boiling, Enum.GetNames(boiling).GetValue(j)), "d"));

        var myColors : Colors = Colors.Red | Colors.Blue | Colors.Yellow;
        Console.WriteLine();
        Console.WriteLine("myColors holds a combination of colors. Namely: {0}", myColors);
    }
}

This type is thread safe.

Windows 98, Windows Server 2000 SP4, Windows CE, Windows Millennium Edition, Windows Mobile for Pocket PC, Windows Mobile for Smartphone, Windows Server 2003, Windows XP Media Center Edition, Windows XP Professional x64 Edition, Windows XP SP2, Windows XP Starter Edition

The Microsoft .NET Framework 3.0 is supported on Windows Vista, Microsoft Windows XP SP2, and Windows Server 2003 SP1.

.NET Framework

Supported in: 3.0, 2.0, 1.1, 1.0

.NET Compact Framework

Supported in: 2.0, 1.0

XNA Framework

Supported in: 1.0

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