FlagsAttribute Konstruktor
Definisi
Penting
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Menginisialisasi instans baru kelas FlagsAttribute.
public:
FlagsAttribute();
public FlagsAttribute ();
Public Sub New ()
Contoh
Contoh berikut mendefinisikan PhoneService
enumerasi yang mewakili bentuk komunikasi yang disediakan oleh perusahaan telepon. Ini menginisialisasi tiga variabel yang mewakili layanan yang disediakan untuk tiga rumah tangga yang berbeda, dan kemudian menunjukkan rumah tangga mana yang tidak memiliki layanan, yang rumah tangga hanya memiliki layanan ponsel, dan rumah tangga mana yang memiliki telepon seluler dan layanan jalur darat. Akhirnya, secara implisit Enum.ToString(String) memanggil metode untuk menampilkan jenis layanan yang diberikan kepada setiap rumah tangga.
using namespace System;
[Flags]
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;
[Flags]
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
open System
[<Flags>]
type PhoneService =
| None = 0
| LandLine = 1
| Cell = 2
| Fax = 4
| Internet = 8
| Other = 16
// Define three variables representing the types of phone service
// in three households.
let household1 =
PhoneService.LandLine ||| PhoneService.Cell ||| PhoneService.Internet
let household2 =
PhoneService.None
let household3 =
PhoneService.Cell ||| PhoneService.Internet
// Store the variables in a list for ease of access.
let households =
[ household1; household2; household3 ]
// Which households have no service?
for i = 0 to households.Length - 1 do
printfn $"""Household {i + 1} has phone service: {if households[i] = PhoneService.None then "No" else "Yes"}"""
printfn ""
// Which households have cell phone service?
for i = 0 to households.Length - 1 do
printfn $"""Household {i + 1} has cell phone service: {if households[i] &&& PhoneService.Cell = PhoneService.Cell then "Yes" else "No"}"""
printfn ""
// Which households have cell phones and land lines?
let cellAndLand =
PhoneService.Cell ||| PhoneService.LandLine
for i = 0 to households.Length - 1 do
printfn $"""Household {i + 1} has cell and land line service: {if households[i] &&& cellAndLand = cellAndLand then "Yes" else "No"}"""
printfn ""
// List all types of service of each household?//
for i = 0 to households.Length - 1 do
printfn $"Household {i + 1} has: {households[i]:G}"
// 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
<Flags()>
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
Contoh berikut mengilustrasikan penggunaan FlagsAttribute
atribut dan menunjukkan efek pada ToString metode penggunaan FlagsAttribute
pada Enum deklarasi.
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.
[Flags]
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.
[Flags]
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
open System
// Define an Enum without FlagsAttribute.
type SingleHue =
| None = 0
| Black = 1
| Red = 2
| Green = 4
| Blue = 8
// Define an Enum with FlagsAttribute.
[<Flags>]
type MultiHue =
| None = 0
| Black = 1
| Red = 2
| Green = 4
| Blue = 8
// Display all possible combinations of values.
printfn "All possible combinations of values without FlagsAttribute:"
for i = 0 to 16 do
printfn $"{i,3} - {enum<SingleHue> i:G}"
// Display all combinations of values, and invalid values.
printfn "\nAll possible combinations of values with FlagsAttribute:"
for i = 0 to 16 do
printfn $"{i,3} - {enum<MultiHue> i:G}"
// 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.
<Flags()>
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