TypeAttributes Enum
Definition
Important
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Specifies type attributes.
This enumeration supports a bitwise combination of its member values.
public enum class TypeAttributes[System.Flags]
public enum TypeAttributes[System.Flags]
[System.Serializable]
public enum TypeAttributes[System.Flags]
[System.Serializable]
[System.Runtime.InteropServices.ComVisible(true)]
public enum TypeAttributes[<System.Flags>]
type TypeAttributes = [<System.Flags>]
[<System.Serializable>]
type TypeAttributes = [<System.Flags>]
[<System.Serializable>]
[<System.Runtime.InteropServices.ComVisible(true)>]
type TypeAttributes = Public Enum TypeAttributes- Inheritance
- Attributes
Fields
| Name | Value | Description |
|---|---|---|
| AnsiClass | 0 | LPTSTR is interpreted as ANSI. |
| AutoLayout | 0 | Specifies that class fields are automatically laid out by the common language runtime. |
| Class | 0 | Specifies that the type is a class. |
| NotPublic | 0 | Specifies that the class is not public. |
| Public | 1 | Specifies that the class is public. |
| NestedPublic | 2 | Specifies that the class is nested with public visibility. |
| NestedPrivate | 3 | Specifies that the class is nested with private visibility. |
| NestedFamily | 4 | Specifies that the class is nested with family visibility, and is thus accessible only by methods within its own type and any derived types. |
| NestedAssembly | 5 | Specifies that the class is nested with assembly visibility, and is thus accessible only by methods within its assembly. |
| NestedFamANDAssem | 6 | Specifies that the class is nested with assembly and family visibility, and is thus accessible only by methods lying in the intersection of its family and assembly. |
| NestedFamORAssem | 7 | Specifies that the class is nested with family or assembly visibility, and is thus accessible only by methods lying in the union of its family and assembly. |
| VisibilityMask | 7 | Specifies type visibility information. |
| SequentialLayout | 8 | Specifies that class fields are laid out sequentially, in the order that the fields were emitted to the metadata. |
| ExplicitLayout | 16 | Specifies that class fields are laid out at the specified offsets. |
| LayoutMask | 24 | Specifies class layout information. |
| ClassSemanticsMask | 32 | Specifies class semantics information; the current class is contextful (else agile). |
| Interface | 32 | Specifies that the type is an interface. |
| Abstract | 128 | Specifies that the type is abstract. |
| Sealed | 256 | Specifies that the class is concrete and cannot be extended. |
| SpecialName | 1024 | Specifies that the class is special in a way denoted by the name. |
| RTSpecialName | 2048 | Runtime should check name encoding. |
| Import | 4096 | Specifies that the class or interface is imported from another module. |
| Serializable | 8192 | Specifies that the class can be serialized. |
| WindowsRuntime | 16384 | Specifies a Windows Runtime type. |
| UnicodeClass | 65536 | LPTSTR is interpreted as UNICODE. |
| AutoClass | 131072 | LPTSTR is interpreted automatically. |
| CustomFormatClass | 196608 | LPSTR is interpreted by some implementation-specific means, which includes the possibility of throwing a NotSupportedException. Not used in the Microsoft implementation of the .NET Framework. |
| StringFormatMask | 196608 | Used to retrieve string information for native interoperability. |
| HasSecurity | 262144 | Type has security associate with it. |
| ReservedMask | 264192 | Attributes reserved for runtime use. |
| BeforeFieldInit | 1048576 | Specifies that calling static methods of the type does not force the system to initialize the type. |
| CustomFormatMask | 12582912 | Used to retrieve non-standard encoding information for native interop. The meaning of the values of these 2 bits is unspecified. Not used in the Microsoft implementation of the .NET Framework. |
Examples
The following example retrieves the value of the Attributes property for Type objects that represent a number of different types, and then determines whether individual attribute flags have been set.
using System;
using System.Reflection;
internal struct S
{
public int X;
}
public abstract class Example
{
protected sealed class NestedClass {}
public interface INested {}
public static void Main()
{
// Create an array of types.
Type[] types = { typeof(Example), typeof(NestedClass),
typeof(INested), typeof(S) };
foreach (var t in types)
{
Console.WriteLine("Attributes for type {0}:", t.Name);
TypeAttributes attr = t.Attributes;
// To test for visibility attributes, you must use the visibility mask.
TypeAttributes visibility = attr & TypeAttributes.VisibilityMask;
switch (visibility)
{
case TypeAttributes.NotPublic:
Console.WriteLine(" ...is not public");
break;
case TypeAttributes.Public:
Console.WriteLine(" ...is public");
break;
case TypeAttributes.NestedPublic:
Console.WriteLine(" ...is nested and public");
break;
case TypeAttributes.NestedPrivate:
Console.WriteLine(" ...is nested and private");
break;
case TypeAttributes.NestedFamANDAssem:
Console.WriteLine(" ...is nested, and inheritable only within the assembly" +
"\n (cannot be declared in C#)");
break;
case TypeAttributes.NestedAssembly:
Console.WriteLine(" ...is nested and internal");
break;
case TypeAttributes.NestedFamily:
Console.WriteLine(" ...is nested and protected");
break;
case TypeAttributes.NestedFamORAssem:
Console.WriteLine(" ...is nested and protected internal");
break;
}
// Use the layout mask to test for layout attributes.
TypeAttributes layout = attr & TypeAttributes.LayoutMask;
switch (layout)
{
case TypeAttributes.AutoLayout:
Console.WriteLine(" ...is AutoLayout");
break;
case TypeAttributes.SequentialLayout:
Console.WriteLine(" ...is SequentialLayout");
break;
case TypeAttributes.ExplicitLayout:
Console.WriteLine(" ...is ExplicitLayout");
break;
}
// Use the class semantics mask to test for class semantics attributes.
TypeAttributes classSemantics = attr & TypeAttributes.ClassSemanticsMask;
switch (classSemantics)
{
case TypeAttributes.Class:
if (t.IsValueType)
{
Console.WriteLine(" ...is a value type");
}
else
{
Console.WriteLine(" ...is a class");
}
break;
case TypeAttributes.Interface:
Console.WriteLine(" ...is an interface");
break;
}
if ((attr & TypeAttributes.Abstract) != 0)
{
Console.WriteLine(" ...is abstract");
}
if ((attr & TypeAttributes.Sealed) != 0)
{
Console.WriteLine(" ...is sealed");
}
Console.WriteLine();
}
}
}
// The example displays the following output:
// Attributes for type Example:
// ...is public
// ...is AutoLayout
// ...is a class
// ...is abstract
// Attributes for type NestedClass:
// ...is nested and protected
// ...is AutoLayout
// ...is a class
// ...is sealed
// Attributes for type INested:
// ...is nested and public
// ...is AutoLayout
// ...is an interface
// ...is abstract
// Attributes for type S:
// ...is not public
// ...is SequentialLayout
// ...is a value type
// ...is sealed
Imports System.Reflection
Friend Structure S
Public X As Integer
End Structure
Public MustInherit Class Example
Protected NotInheritable Class NestedClass
End Class
Public Interface INested
End Interface
Public Shared Sub Main()
' Create an array of types.
Dim types() As Type = { GetType(Example), GetType(NestedClass),
GetType(INested), GetType(S) }
For Each t In types
Console.WriteLine("Attributes for type {0}:", t.Name)
Dim attr As TypeAttributes = t.Attributes
' Use the visibility mask to test for visibility attributes.
Dim visibility As TypeAttributes = attr And TypeAttributes.VisibilityMask
Select Case visibility
Case TypeAttributes.NotPublic:
Console.WriteLine(" ...is not Public")
Case TypeAttributes.Public:
Console.WriteLine(" ...is Public")
Case TypeAttributes.NestedPublic:
Console.WriteLine(" ...is nested and Public")
Case TypeAttributes.NestedPrivate:
Console.WriteLine(" ...is nested and Private")
Case TypeAttributes.NestedFamANDAssem:
Console.WriteLine(" ...is nested, and inheritable only within the assembly" & _
vbLf & " (cannot be declared in Visual Basic)")
Case TypeAttributes.NestedAssembly:
Console.WriteLine(" ...is nested and Friend")
Case TypeAttributes.NestedFamily:
Console.WriteLine(" ...is nested and Protected")
Case TypeAttributes.NestedFamORAssem:
Console.WriteLine(" ...is nested and Protected Friend")
End Select
' Use the layout mask to test for layout attributes.
Dim layout As TypeAttributes = attr And TypeAttributes.LayoutMask
Select Case layout
Case TypeAttributes.AutoLayout:
Console.WriteLine(" ...is AutoLayout")
Case TypeAttributes.SequentialLayout:
Console.WriteLine(" ...is SequentialLayout")
Case TypeAttributes.ExplicitLayout:
Console.WriteLine(" ...is ExplicitLayout")
End Select
' Use the class semantics mask to test for class semantics attributes.
Dim classSemantics As TypeAttributes = attr And TypeAttributes.ClassSemanticsMask
Select Case classSemantics
Case TypeAttributes.Class:
If t.IsValueType Then
Console.WriteLine(" ...is a value type")
Else
Console.WriteLine(" ...is a class")
End If
Case TypeAttributes.Interface:
Console.WriteLine(" ...is an interface")
End Select
If 0 <> (attr And TypeAttributes.Abstract) Then _
Console.WriteLine(" ...is MustInherit")
If 0 <> (attr And TypeAttributes.Sealed) Then _
Console.WriteLine(" ...is NotInheritable")
Console.WriteLine()
Next
End Sub
End Class
' The example displays the following output:
' Attributes for type Example:
' ...is Public
' ...is AutoLayout
' ...is a class
' ...is MustInherit
'
' Attributes for type NestedClass:
' ...is nested and Protected
' ...is AutoLayout
' ...is a class
' ...is NotInheritable
'
' Attributes for type INested:
' ...is nested and Public
' ...is AutoLayout
' ...is an interface
' ...is MustInherit
'
' Attributes for type S:
' ...is not Public
' ...is SequentialLayout
' ...is a value type
' ...is NotInheritable
Remarks
Some of the members of the TypeAttributes enumeration are masks that represent a set of mutually exclusive attributes. For example, the VisibilityMask member includes the NotPublic, Public, NestedPublic, NestedPrivate, NestedFamily, NestedAssembly, NestedFamANDAssem, and NestedFamORAssem members. Because each attribute set includes a member whose underlying value is zero, you should first And the value of the mask with the specific System.Reflection.TypeAttributes value retrieved from a property such as Type.Attributes. The following table lists the masks and the individual members that they include:
| Mask | Includes |
|---|---|
| VisibilityMask | NotPublic Public NestedPublic NestedPrivate NestedFamily NestedAssembly NestedFamANDAssem NestedFamORAssem |
| LayoutMask | AutoLayout SequentialLayout ExplicitLayout |
| ClassSemanticsMask | Class Interface |
| StringFormatMask | AnsiClass UnicodeClass AutoClass CustomFormatClass |
| CustomFormatMask | No members. |
The members of this enumerator class match the CorTypeAttr enumerator as defined in the corhdr.h file.
