FlagsAttribute FlagsAttribute FlagsAttribute FlagsAttribute Class

定義

指出可將列舉視為位元欄位,也就是一組旗標。Indicates that an enumeration can be treated as a bit field; that is, a set of flags.

public ref class FlagsAttribute : Attribute
[System.AttributeUsage(System.AttributeTargets.Enum, Inherited=false)]
[System.Runtime.InteropServices.ComVisible(true)]
[System.Serializable]
public class FlagsAttribute : Attribute
type FlagsAttribute = class
    inherit Attribute
Public Class FlagsAttribute
Inherits Attribute
繼承
FlagsAttributeFlagsAttributeFlagsAttributeFlagsAttribute
屬性

範例

下列範例說明FlagsAttribute屬性的用法, 並顯示在宣告上FlagsAttribute使用EnumToString方法的效果。The following example illustrates the use of the FlagsAttribute attribute and shows the effect on the ToString method of using FlagsAttribute on an Enum declaration.

using namespace System;

// Define an Enum without FlagsAttribute.
public enum class SingleHue : short
{
   None = 0,
   Black = 1,
   Red = 2,
   Green = 4,
   Blue = 8
};

// Define an Enum with FlagsAttribute.
[FlagsAttribute]
enum class MultiHue : short
{
   None = 0,
   Black = 1,
   Red = 2,
   Green = 4,
   Blue = 8
};

int main()
{
   // Display all possible combinations of values.
   Console::WriteLine(
        "All possible combinations of values without FlagsAttribute:");
   for (int val = 0; val <= 16; val++)
      Console::WriteLine("{0,3} - {1:G}", val, (SingleHue)val);
      
   Console::WriteLine(
        "\nAll possible combinations of values with FlagsAttribute:");
   
   // Display all combinations of values, and invalid values.
   for (int val = 0; val <= 16; val++ )
      Console::WriteLine("{0,3} - {1:G}", val, (MultiHue)val);
}
// The example displays the following output:
//       All possible combinations of values without FlagsAttribute:
//         0 - None
//         1 - Black
//         2 - Red
//         3 - 3
//         4 - Green
//         5 - 5
//         6 - 6
//         7 - 7
//         8 - Blue
//         9 - 9
//        10 - 10
//        11 - 11
//        12 - 12
//        13 - 13
//        14 - 14
//        15 - 15
//        16 - 16
//       
//       All possible combinations of values with FlagsAttribute:
//         0 - None
//         1 - Black
//         2 - Red
//         3 - Black, Red
//         4 - Green
//         5 - Black, Green
//         6 - Red, Green
//         7 - Black, Red, Green
//         8 - Blue
//         9 - Black, Blue
//        10 - Red, Blue
//        11 - Black, Red, Blue
//        12 - Green, Blue
//        13 - Black, Green, Blue
//        14 - Red, Green, Blue
//        15 - Black, Red, Green, Blue
//        16 - 16
using System;

class Example
{
   // Define an Enum without FlagsAttribute.
   enum SingleHue : short
   {
      None = 0,
      Black = 1,
      Red = 2,
      Green = 4,
      Blue = 8
   };

   // Define an Enum with FlagsAttribute.
   [FlagsAttribute] 
   enum MultiHue : short
   {
      None = 0,
      Black = 1,
      Red = 2,
      Green = 4,
      Blue = 8
   };

   static void Main( )
   {
      // Display all possible combinations of values.
      Console.WriteLine( 
           "All possible combinations of values without FlagsAttribute:");
      for(int val = 0; val <= 16; val++ )
         Console.WriteLine( "{0,3} - {1:G}", val, (SingleHue)val);

      // Display all combinations of values, and invalid values.
      Console.WriteLine( 
           "\nAll possible combinations of values with FlagsAttribute:");
      for( int val = 0; val <= 16; val++ )
         Console.WriteLine( "{0,3} - {1:G}", val, (MultiHue)val);
   } 
} 
// The example displays the following output:
//       All possible combinations of values without FlagsAttribute:
//         0 - None
//         1 - Black
//         2 - Red
//         3 - 3
//         4 - Green
//         5 - 5
//         6 - 6
//         7 - 7
//         8 - Blue
//         9 - 9
//        10 - 10
//        11 - 11
//        12 - 12
//        13 - 13
//        14 - 14
//        15 - 15
//        16 - 16
//       
//       All possible combinations of values with FlagsAttribute:
//         0 - None
//         1 - Black
//         2 - Red
//         3 - Black, Red
//         4 - Green
//         5 - Black, Green
//         6 - Red, Green
//         7 - Black, Red, Green
//         8 - Blue
//         9 - Black, Blue
//        10 - Red, Blue
//        11 - Black, Red, Blue
//        12 - Green, Blue
//        13 - Black, Green, Blue
//        14 - Red, Green, Blue
//        15 - Black, Red, Green, Blue
//        16 - 16
Module Example
   ' Define an Enum without FlagsAttribute.
   Enum SingleHue As Short
      None = 0
      Black = 1
      Red = 2
      Green = 4
      Blue = 8
   End Enum

   ' Define an Enum with FlagsAttribute.
   <FlagsAttribute> 
   Enum MultiHue As Short
      None = 0
      Black = 1
      Red = 2
      Green = 4
      Blue = 8
   End Enum

   Sub Main()
      ' Display all possible combinations of values.
      Console.WriteLine(
           "All possible combinations of values without FlagsAttribute:")
      For val As Integer = 0 To 16
         Console.WriteLine("{0,3} - {1:G}", val, CType(val, SingleHue))
     Next 
     Console.WriteLine()
     
     ' Display all combinations of values, and invalid values.
     Console.WriteLine( 
          "All possible combinations of values with FlagsAttribute:")
     For val As Integer = 0 To 16
        Console.WriteLine( "{0,3} - {1:G}", val, CType(val, MultiHue))
     Next 
   End Sub 
End Module 
' The example displays the following output:
'       All possible combinations of values without FlagsAttribute:
'         0 - None
'         1 - Black
'         2 - Red
'         3 - 3
'         4 - Green
'         5 - 5
'         6 - 6
'         7 - 7
'         8 - Blue
'         9 - 9
'        10 - 10
'        11 - 11
'        12 - 12
'        13 - 13
'        14 - 14
'        15 - 15
'        16 - 16
'       
'       All possible combinations of values with FlagsAttribute:
'         0 - None
'         1 - Black
'         2 - Red
'         3 - Black, Red
'         4 - Green
'         5 - Black, Green
'         6 - Red, Green
'         7 - Black, Red, Green
'         8 - Blue
'         9 - Black, Blue
'        10 - Red, Blue
'        11 - Black, Red, Blue
'        12 - Green, Blue
'        13 - Black, Green, Blue
'        14 - Red, Green, Blue
'        15 - Black, Red, Green, Blue
'        16 - 16

下列範例會定義兩個與色彩相關的SingleHue列舉MultiHue, 和。The following example defines two color-related enumerations, SingleHue and MultiHue. 後者具有FlagsAttribute屬性, 而前者則不是。The latter has the FlagsAttribute attribute; the former does not. 此範例示範當整數範圍 (包括不代表列舉類型之基礎值的整數) 轉換成列舉類型及其字串標記法時的行為差異。The example shows the difference in behavior when a range of integers, including integers that do not represent underlying values of the enumeration type, are cast to the enumeration type and their string representations displayed. 例如, 請注意, 3 不能表示為SingleHue值, 因為3不是任何SingleHue成員的基礎值, 而FlagsAttribute屬性則可以將3表示為MultiHue的值Black, RedFor example, note that 3 cannot be represented as a SingleHue value because 3 is not the underlying value of any SingleHue member, whereas the FlagsAttribute attribute makes it possible to represent 3 as a MultiHue value of Black, Red.

using namespace System;

[FlagsAttribute] enum class PhoneService
{
   None = 0,
   LandLine = 1,
   Cell = 2,
   Fax = 4,
   Internet = 8,
   Other = 16
};

void main()
{
   // Define three variables representing the types of phone service
   // in three households.
   PhoneService household1 = PhoneService::LandLine | PhoneService::Cell |
                             PhoneService::Internet;
   PhoneService household2 = PhoneService::None;
   PhoneService household3 = PhoneService::Cell | PhoneService::Internet;

   // Store the variables in an array for ease of access.
   array<PhoneService>^ households = { household1, household2, household3 };

   // Which households have no service?
   for (int ctr = 0; ctr < households->Length; ctr++)
      Console::WriteLine("Household {0} has phone service: {1}",
                         ctr + 1,
                         households[ctr] == PhoneService::None ?
                             "No" : "Yes");
   Console::WriteLine();

   // Which households have cell phone service?
   for (int ctr = 0; ctr < households->Length; ctr++)
      Console::WriteLine("Household {0} has cell phone service: {1}",
                         ctr + 1,
                         (households[ctr] & PhoneService::Cell) == PhoneService::Cell ?
                            "Yes" : "No");
   Console::WriteLine();

   // Which households have cell phones and land lines?
   PhoneService cellAndLand = PhoneService::Cell | PhoneService::LandLine;
   for (int ctr = 0; ctr < households->Length; ctr++)
      Console::WriteLine("Household {0} has cell and land line service: {1}",
                         ctr + 1,
                         (households[ctr] & cellAndLand) == cellAndLand ?
                            "Yes" : "No");
   Console::WriteLine();

   // List all types of service of each household?//
   for (int ctr = 0; ctr < households->Length; ctr++)
      Console::WriteLine("Household {0} has: {1:G}",
                         ctr + 1, households[ctr]);
   Console::WriteLine();
}
// The example displays the following output:
//    Household 1 has phone service: Yes
//    Household 2 has phone service: No
//    Household 3 has phone service: Yes
//
//    Household 1 has cell phone service: Yes
//    Household 2 has cell phone service: No
//    Household 3 has cell phone service: Yes
//
//    Household 1 has cell and land line service: Yes
//    Household 2 has cell and land line service: No
//    Household 3 has cell and land line service: No
//
//    Household 1 has: LandLine, Cell, Internet
//    Household 2 has: None
//    Household 3 has: Cell, Internet
using System;

[FlagsAttribute] public enum PhoneService
{
   None = 0,
   LandLine = 1,
   Cell = 2,
   Fax = 4,
   Internet = 8,
   Other = 16
}

public class Example
{
   public static void Main()
   {
      // Define three variables representing the types of phone service
      // in three households.
      var household1 = PhoneService.LandLine | PhoneService.Cell |
                       PhoneService.Internet;
      var household2 = PhoneService.None;
      var household3 = PhoneService.Cell | PhoneService.Internet;

      // Store the variables in an array for ease of access.
      PhoneService[] households = { household1, household2, household3 };

      // Which households have no service?
      for (int ctr = 0; ctr < households.Length; ctr++)
         Console.WriteLine("Household {0} has phone service: {1}",
                           ctr + 1,
                           households[ctr] == PhoneService.None ?
                               "No" : "Yes");
      Console.WriteLine();

      // Which households have cell phone service?
      for (int ctr = 0; ctr < households.Length; ctr++)
         Console.WriteLine("Household {0} has cell phone service: {1}",
                           ctr + 1,
                           (households[ctr] & PhoneService.Cell) == PhoneService.Cell ?
                              "Yes" : "No");
      Console.WriteLine();

      // Which households have cell phones and land lines?
      var cellAndLand = PhoneService.Cell | PhoneService.LandLine;
      for (int ctr = 0; ctr < households.Length; ctr++)
         Console.WriteLine("Household {0} has cell and land line service: {1}",
                           ctr + 1,
                           (households[ctr] & cellAndLand) == cellAndLand ?
                              "Yes" : "No");
      Console.WriteLine();

      // List all types of service of each household?//
      for (int ctr = 0; ctr < households.Length; ctr++)
         Console.WriteLine("Household {0} has: {1:G}",
                           ctr + 1, households[ctr]);
      Console.WriteLine();
   }
}
// The example displays the following output:
//    Household 1 has phone service: Yes
//    Household 2 has phone service: No
//    Household 3 has phone service: Yes
//
//    Household 1 has cell phone service: Yes
//    Household 2 has cell phone service: No
//    Household 3 has cell phone service: Yes
//
//    Household 1 has cell and land line service: Yes
//    Household 2 has cell and land line service: No
//    Household 3 has cell and land line service: No
//
//    Household 1 has: LandLine, Cell, Internet
//    Household 2 has: None
//    Household 3 has: Cell, Internet
<FlagsAttribute> Public Enum PhoneService As Integer
   None = 0
   LandLine = 1
   Cell = 2
   Fax = 4
   Internet = 8
   Other = 16
End Enum

Module Example
   Public Sub Main()
      ' Define three variables representing the types of phone service
      ' in three households.
      Dim household1 As PhoneService = PhoneService.LandLine Or
                                       PhoneService.Cell Or
                                       PhoneService.Internet
      Dim household2 As PhoneService = PhoneService.None
      Dim household3 As PhoneService = PhoneService.Cell Or
                                       PhoneService.Internet

      ' Store the variables in an array for ease of access.
      Dim households() As PhoneService = { household1, household2,
                                           household3 }

      ' Which households have no service?
      For ctr As Integer = 0 To households.Length - 1
         Console.WriteLine("Household {0} has phone service: {1}",
                           ctr + 1,
                           If(households(ctr) = PhoneService.None,
                              "No", "Yes"))
      Next
      Console.WriteLine()
      
      ' Which households have cell phone service?
      For ctr As Integer = 0 To households.Length - 1
         Console.WriteLine("Household {0} has cell phone service: {1}",
                           ctr + 1,
                           If((households(ctr) And PhoneService.Cell) = PhoneService.Cell,
                              "Yes", "No"))
      Next
      Console.WriteLine()
      
      ' Which households have cell phones and land lines?
      Dim cellAndLand As PhoneService = PhoneService.Cell Or PhoneService.LandLine
      For ctr As Integer = 0 To households.Length - 1
         Console.WriteLine("Household {0} has cell and land line service: {1}",
                           ctr + 1,
                           If((households(ctr) And cellAndLand) = cellAndLand,
                              "Yes", "No"))
      Next
      Console.WriteLine()
      
      ' List all types of service of each household?'
      For ctr As Integer = 0 To households.Length - 1
         Console.WriteLine("Household {0} has: {1:G}",
                           ctr + 1, households(ctr))
      Next
      Console.WriteLine()
   End Sub
End Module
' The example displays the following output:
'    Household 1 has phone service: Yes
'    Household 2 has phone service: No
'    Household 3 has phone service: Yes
'
'    Household 1 has cell phone service: Yes
'    Household 2 has cell phone service: No
'    Household 3 has cell phone service: Yes
'
'    Household 1 has cell and land line service: Yes
'    Household 2 has cell and land line service: No
'    Household 3 has cell and land line service: No
'
'    Household 1 has: LandLine, Cell, Internet
'    Household 2 has: None
'    Household 3 has: Cell, Internet

備註

位欄位通常會用於可能會合並的專案清單, 而列舉常數通常用於互斥專案的清單。Bit fields are generally used for lists of elements that might occur in combination, whereas enumeration constants are generally used for lists of mutually exclusive elements. 因此, 位欄位的設計是要與位 OR 運算結合以產生未命名的值, 而列舉的常數則不是。Therefore, bit fields are designed to be combined with a bitwise OR operation to generate unnamed values, whereas enumerated constants are not. 相較于列舉常數, 語言的使用位欄位會有所不同。Languages vary in their use of bit fields compared to enumeration constants.

FlagsAttribute 的屬性Attributes of the FlagsAttribute

AttributeUsageAttribute會套用至這個類別, 且其Inherited屬性會false指定。AttributeUsageAttribute is applied to this class, and its Inherited property specifies false. 這個屬性只能套用至列舉。This attribute can only be applied to enumerations.

FlagsAttribute 和 Enum 的指導方針Guidelines for FlagsAttribute and Enum

  • 只有在FlagsAttribute對數值執行位運算 (and、OR、EXCLUSIVE 或) 時, 才使用列舉的自訂屬性。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.

  • 以二的乘冪來定義列舉常數, 也就是1、2、4、8等等。Define enumeration constants in powers of two, that is, 1, 2, 4, 8, and so on. 這表示合併列舉常數中的個別旗標不會重迭。This means the individual flags in combined enumeration constants do not overlap.

  • 請考慮建立常用旗標組合的列舉常數。Consider creating an enumerated constant for commonly used flag combinations. 例如, 如果您有用於包含列舉常數Read = 1Write = 2之檔案 i/o 作業的列舉, 請考慮建立列舉常數ReadWrite = Read OR Write, 其結合了和Write Read旗幟.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. 此外, 在某些情況下, 用來合併旗標的位 OR 運算可能會被視為一種較簡單的概念, 而這種情況應該不需要進行簡單的工作。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.

  • 如果您將負數定義為旗標列舉常數, 因為有許多旗標位置可能設定為 1, 這可能會讓您的程式碼令人困惑, 並鼓勵編碼錯誤, 請謹慎使用。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.

  • 測試旗標是否設定在數值中的一個方便的方式, 就是在數值和旗標列舉常數之間執行位 AND 運算, 這會將數值中的所有位都設為零, 而不會對應到旗標。, 然後測試該作業的結果是否等於「旗標列舉常數」。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.

  • 當做None值為零的旗標列舉常數名稱使用。Use None as the name of the flag enumerated constant whose value is zero. 您無法在位None and 運算中使用列舉常數來測試旗標, 因為結果一律為零。You cannot use the None enumerated constant in a bitwise AND operation to test for a flag because the result is always zero. 不過, 您可以執行數值和None列舉常數之間的邏輯 (而非位) 比較, 以判斷是否已設定數值中的任何位。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.

    如果您建立的是值列舉, 而不是旗標列舉, 則建立None列舉常數仍然有其必要。If you create a value enumeration instead of a flags enumeration, it is still worthwhile to create a None enumerated constant. 這是因為根據預設, 用於列舉的記憶體會由 common language runtime 初始化為零。The reason is that by default the memory used for the enumeration is initialized to zero by the common language runtime. 因此, 如果您未定義其值為零的常數, 則列舉會在建立時包含不合法的值。Consequently, if you do not define a constant whose value is zero, the enumeration will contain an illegal value when it is created.

    如果您的應用程式需要呈現明顯的預設案例, 請考慮使用其值為零的列舉常數來表示預設。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. 如果沒有預設的案例, 請考慮使用其值為零的列舉常數, 表示不是任何其他列舉常數所表示的大小寫。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.

  • 請勿單獨定義列舉值, 以鏡像列舉本身的狀態。Do not define an enumeration value solely to mirror the state of the enumeration itself. 例如, 請勿定義只標記列舉結尾的列舉常數。For example, do not define an enumerated constant that merely marks the end of the enumeration. 如果您需要判斷列舉的最後一個值, 請明確檢查該值。If you need to determine the last value of the enumeration, check for that value explicitly. 此外, 如果範圍內的所有值都有效, 您可以對第一個和最後一個列舉常數執行範圍檢查。In addition, you can perform a range check for the first and last enumerated constant if all values within the range are valid.

  • 請勿指定保留供未來使用的列舉常數。Do not specify enumerated constants that are reserved for future use.

  • 當您定義會將列舉常數當做值使用的方法或屬性時, 請考慮驗證此值。When you define a method or property that takes an enumerated constant as a value, consider validating the value. 原因是您可以將數值轉換成列舉類型, 即使該數值並未定義于列舉中也一樣。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.

建構函式

FlagsAttribute() FlagsAttribute() FlagsAttribute() FlagsAttribute()

初始化 FlagsAttribute 類別的新執行個體。Initializes a new instance of the FlagsAttribute class.

方法

Equals(Object) Equals(Object) Equals(Object) Equals(Object)

傳回值,這個值指出此執行個體是否與指定的物件相等。Returns a value that indicates whether this instance is equal to a specified object.

(Inherited from Attribute)
GetHashCode() GetHashCode() GetHashCode() GetHashCode()

傳回這個執行個體的雜湊碼。Returns the hash code for this instance.

(Inherited from Attribute)
GetType() GetType() GetType() GetType()

取得目前執行個體的 TypeGets the Type of the current instance.

(Inherited from Object)
IsDefaultAttribute() IsDefaultAttribute() IsDefaultAttribute() IsDefaultAttribute()

在衍生類別中覆寫時,表示這個執行個體的值是衍生類別的預設值。When overridden in a derived class, indicates whether the value of this instance is the default value for the derived class.

(Inherited from Attribute)
Match(Object) Match(Object) Match(Object) Match(Object)

在衍生類別中覆寫時,會傳回值,表示這個執行個體是否等於指定物件。When overridden in a derived class, returns a value that indicates whether this instance equals a specified object.

(Inherited from Attribute)
MemberwiseClone() MemberwiseClone() MemberwiseClone() MemberwiseClone()

建立目前 Object 的淺層複本 (Shallow Copy)。Creates a shallow copy of the current Object.

(Inherited from Object)
ToString() ToString() ToString() ToString()

傳回代表目前物件的字串。Returns a string that represents the current object.

(Inherited from Object)

明確介面實作

_Attribute.GetIDsOfNames(Guid, IntPtr, UInt32, UInt32, IntPtr) _Attribute.GetIDsOfNames(Guid, IntPtr, UInt32, UInt32, IntPtr) _Attribute.GetIDsOfNames(Guid, IntPtr, UInt32, UInt32, IntPtr) _Attribute.GetIDsOfNames(Guid, IntPtr, UInt32, UInt32, IntPtr)

將一組名稱對應至一組對應的分派識別項 (Dispatch Identifier)。Maps a set of names to a corresponding set of dispatch identifiers.

(Inherited from Attribute)
_Attribute.GetTypeInfo(UInt32, UInt32, IntPtr) _Attribute.GetTypeInfo(UInt32, UInt32, IntPtr) _Attribute.GetTypeInfo(UInt32, UInt32, IntPtr) _Attribute.GetTypeInfo(UInt32, UInt32, IntPtr)

擷取物件的類型資訊,可以用來取得介面的類型資訊。Retrieves the type information for an object, which can be used to get the type information for an interface.

(Inherited from Attribute)
_Attribute.GetTypeInfoCount(UInt32) _Attribute.GetTypeInfoCount(UInt32) _Attribute.GetTypeInfoCount(UInt32) _Attribute.GetTypeInfoCount(UInt32)

擷取物件提供的類型資訊介面數目 (0 或 1)。Retrieves the number of type information interfaces that an object provides (either 0 or 1).

(Inherited from Attribute)
_Attribute.Invoke(UInt32, Guid, UInt32, Int16, IntPtr, IntPtr, IntPtr, IntPtr) _Attribute.Invoke(UInt32, Guid, UInt32, Int16, IntPtr, IntPtr, IntPtr, IntPtr) _Attribute.Invoke(UInt32, Guid, UInt32, Int16, IntPtr, IntPtr, IntPtr, IntPtr) _Attribute.Invoke(UInt32, Guid, UInt32, Int16, IntPtr, IntPtr, IntPtr, IntPtr)

提供物件所公開的屬性和方法的存取權。Provides access to properties and methods exposed by an object.

(Inherited from Attribute)

屬性

TypeId TypeId TypeId TypeId

在衍生類別中實作時,取得這個 Attribute 的唯一識別碼。When implemented in a derived class, gets a unique identifier for this Attribute.

(Inherited from Attribute)

適用於