Attribute.GetCustomAttributes 方法
定义
重要
一些信息与预发行产品相关,相应产品在发行之前可能会进行重大修改。 对于此处提供的信息,Microsoft 不作任何明示或暗示的担保。
检索应用于程序集、模块、类型成员或方法参数的自定义属性的数组。
重载
| GetCustomAttributes(ParameterInfo, Boolean) |
检索应用于方法参数的自定义特性的数组。 参数指定方法参数,以及是否搜索方法参数的上级。 |
| GetCustomAttributes(MemberInfo, Type, Boolean) |
检索应用于类型成员的自定义属性的数组。 参数指定要搜索的成员、要搜索的自定义属性的类型以及是否搜索成员的上级。 |
| GetCustomAttributes(ParameterInfo, Type, Boolean) |
检索应用于方法参数的自定义特性的数组。 参数指定要搜索的方法参数、要搜索的自定义属性的类型,以及是否搜索方法参数的上级。 |
| GetCustomAttributes(Module, Type, Boolean) |
检索应用于模块的自定义属性的数组。 参数指定要搜索的模块、要搜索的自定义属性的类型和忽略的搜索选项。 |
| GetCustomAttributes(MemberInfo, Type) |
检索应用于类型成员的自定义属性的数组。 参数指定要搜索的成员和自定义属性的类型。 |
| GetCustomAttributes(Assembly, Type, Boolean) |
检索应用于程序集的自定义特性的数组。 参数指定要搜索的程序集、要搜索的自定义属性的类型和忽略的搜索选项。 |
| GetCustomAttributes(Module, Type) |
检索应用于模块的自定义属性的数组。 参数指定要搜索的模块和自定义属性的类型。 |
| GetCustomAttributes(ParameterInfo, Type) |
检索应用于方法参数的自定义特性的数组。 参数指定要搜索的方法参数和自定义属性的类型。 |
| GetCustomAttributes(MemberInfo, Boolean) |
检索应用于类型成员的自定义属性的数组。 参数指定要搜索的成员、要搜索的自定义属性的类型以及是否搜索成员的上级。 |
| GetCustomAttributes(Assembly, Type) |
检索应用于程序集的自定义特性的数组。 参数指定要搜索的程序集和自定义属性的类型。 |
| GetCustomAttributes(Assembly, Boolean) |
检索应用于程序集的自定义特性的数组。 参数指定程序集和忽略的搜索选项。 |
| GetCustomAttributes(ParameterInfo) |
检索应用于方法参数的自定义特性的数组。 参数指定方法参数。 |
| GetCustomAttributes(Module) |
检索应用于模块的自定义属性的数组。 参数指定模块。 |
| GetCustomAttributes(MemberInfo) |
检索应用于类型成员的自定义属性的数组。 参数指定成员。 |
| GetCustomAttributes(Assembly) |
检索应用于程序集的自定义特性的数组。 参数指定程序集。 |
| GetCustomAttributes(Module, Boolean) |
检索应用于模块的自定义属性的数组。 参数指定模块和忽略的搜索选项。 |
GetCustomAttributes(ParameterInfo, Boolean)
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
检索应用于方法参数的自定义特性的数组。 参数指定方法参数,以及是否搜索方法参数的上级。
public:
static cli::array <Attribute ^> ^ GetCustomAttributes(System::Reflection::ParameterInfo ^ element, bool inherit);public static Attribute[] GetCustomAttributes (System.Reflection.ParameterInfo element, bool inherit);static member GetCustomAttributes : System.Reflection.ParameterInfo * bool -> Attribute[]Public Shared Function GetCustomAttributes (element As ParameterInfo, inherit As Boolean) As Attribute()参数
- element
- ParameterInfo
一个派生自 ParameterInfo 类的对象,该类描述类的成员的参数。
- inherit
- Boolean
如果 true,则指定还搜索 element 的上级以获取自定义属性。
返回
一个 Attribute 数组,其中包含应用于 element的自定义属性;如果没有此类自定义属性,则为空数组。
例外
element 的 Member 属性 null。
element
null。
无法加载自定义属性类型。
示例
下面的代码示例演示如何使用 GetCustomAttributes,以 ParameterInfo 作为参数。
using namespace System;
using namespace System::Reflection;
using namespace System::ComponentModel;
namespace CustAttrs5CS
{
public ref class AClass
{
public:
void ParamArrayAndDesc(
// Add ParamArray and Description attributes.
[Description("This argument is a ParamArray")]
array<Int32>^args )
{}
};
ref class DemoClass
{
public:
static void Main()
{
// Get the Class type to access its metadata.
Type^ clsType = AClass::typeid;
// Get the type information for the method.
MethodInfo^ mInfo = clsType->GetMethod( "ParamArrayAndDesc" );
if ( mInfo != nullptr )
{
// Get the parameter information.
array<ParameterInfo^>^pInfo = mInfo->GetParameters();
if ( pInfo != nullptr )
{
// Iterate through all the attributes for the parameter.
System::Collections::IEnumerator^ myEnum4 = Attribute::GetCustomAttributes( pInfo[ 0 ] )->GetEnumerator();
while ( myEnum4->MoveNext() )
{
Attribute^ attr = safe_cast<Attribute^>(myEnum4->Current);
// Check for the ParamArray attribute.
if ( attr->GetType() == ParamArrayAttribute::typeid )
Console::WriteLine( "Parameter {0} for method {1} "
"has the ParamArray attribute.", pInfo[ 0 ]->Name, mInfo->Name );
// Check for the Description attribute.
else
// Check for the Description attribute.
if ( attr->GetType() == DescriptionAttribute::typeid )
{
Console::WriteLine( "Parameter {0} for method {1} "
"has a description attribute.", pInfo[ 0 ]->Name, mInfo->Name );
Console::WriteLine( "The description is: \"{0}\"", (dynamic_cast<DescriptionAttribute^>(attr))->Description );
}
}
}
}
}
};
}
/*
* Output:
* Parameter args for method ParamArrayAndDesc has the ParamArray attribute.
* Parameter args for method ParamArrayAndDesc has a description attribute.
* The description is: "This argument is a ParamArray"
*/
using System;
using System.Reflection;
using System.ComponentModel;
namespace CustAttrs5CS {
public class AClass {
public void ParamArrayAndDesc(
// Add ParamArray (with the keyword) and Description attributes.
[Description("This argument is a ParamArray")]
params int[] args)
{}
}
class DemoClass {
static void Main(string[] args) {
// Get the Class type to access its metadata.
Type clsType = typeof(AClass);
// Get the type information for the method.
MethodInfo mInfo = clsType.GetMethod("ParamArrayAndDesc");
if (mInfo != null) {
// Get the parameter information.
ParameterInfo[] pInfo = mInfo.GetParameters();
if (pInfo != null) {
// Iterate through all the attributes for the parameter.
foreach(Attribute attr in
Attribute.GetCustomAttributes(pInfo[0])) {
// Check for the ParamArray attribute.
if (attr.GetType() == typeof(ParamArrayAttribute))
Console.WriteLine("Parameter {0} for method {1} " +
"has the ParamArray attribute.",
pInfo[0].Name, mInfo.Name);
// Check for the Description attribute.
else if (attr.GetType() ==
typeof(DescriptionAttribute)) {
Console.WriteLine("Parameter {0} for method {1} " +
"has a description attribute.",
pInfo[0].Name, mInfo.Name);
Console.WriteLine("The description is: \"{0}\"",
((DescriptionAttribute)attr).Description);
}
}
}
}
}
}
}
/*
* Output:
* Parameter args for method ParamArrayAndDesc has the ParamArray attribute.
* Parameter args for method ParamArrayAndDesc has a description attribute.
* The description is: "This argument is a ParamArray"
*/
open System
open System.Reflection
open System.ComponentModel
type AClass() =
member _.ParamArrayAndDesc(
// Add ParamArray and Description attributes.
[<Description "This argument is a ParamArray">]
[<ParamArray>]
args: int[]) = ()
// Get the Class type to access its metadata.
let clsType = typeof<AClass>
// Get the type information for the method.
let mInfo = clsType.GetMethod "ParamArrayAndDesc"
if mInfo <> null then
// Get the parameter information.
let pInfo = mInfo.GetParameters()
if pInfo <> null then
// Iterate through all the attributes for the parameter.
for attr in Attribute.GetCustomAttributes pInfo[0] do
match attr with
// Check for the ParamArray attribute.
| :? ParamArrayAttribute ->
printfn $"Parameter {pInfo[0].Name} for method {mInfo.Name} has the ParamArray attribute."
// Check for the Description attribute.
| :? DescriptionAttribute as attr ->
printfn $"Parameter {pInfo[0].Name} for method {mInfo.Name} has a description attribute."
printfn $"The description is: \"{attr.Description}\""
| _ -> ()
// Output:
// Parameter args for method ParamArrayAndDesc has a description attribute.
// The description is: "This argument is a ParamArray"
// Parameter args for method ParamArrayAndDesc has the ParamArray attribute.
Imports System.Reflection
Imports System.ComponentModel
Module DemoModule
Public Class AClass
' Add Description and ParamArray (with the keyword) attributes.
Public Sub ParamArrayAndDesc( _
<Description("This argument is a ParamArray")> _
ByVal ParamArray args() As Integer)
End Sub
End Class
Sub Main()
' Get the Class type to access its metadata.
Dim clsType As Type = GetType(AClass)
' Get the type information for the method.
Dim mInfo As MethodInfo = clsType.GetMethod("ParamArrayAndDesc")
' Get the Parameter information for the method.
Dim pInfo() As ParameterInfo = mInfo.GetParameters()
Dim attr As Attribute
' Iterate through each attribute of the parameter.
For Each attr In Attribute.GetCustomAttributes(pInfo(0))
' Check for the ParamArray attribute.
If TypeOf attr Is ParamArrayAttribute Then
' Convert the attribute to access its data.
Dim paAttr As ParamArrayAttribute = _
CType(attr, ParamArrayAttribute)
Console.WriteLine("Parameter {0} for method {1} has the " + _
"ParamArray attribute.", pInfo(0).Name, mInfo.Name)
' Check for the Description attribute.
ElseIf TypeOf attr Is DescriptionAttribute Then
' Convert the attribute to access its data.
Dim descAttr As DescriptionAttribute = _
CType(attr, DescriptionAttribute)
Console.WriteLine("Parameter {0} for method {1} has a description " + _
"attribute. The description is:", pInfo(0).Name, mInfo.Name)
Console.WriteLine(descAttr.Description)
End If
Next
End Sub
End Module
' Output:
' Parameter args for method ParamArrayAndDesc has the ParamArray attribute.
' Parameter args for method ParamArrayAndDesc has a description attribute. The description is:
' This argument is a ParamArray
注解
如果 element 表示派生类型方法中的参数,则返回值包括应用于重写基方法中相同参数的可继承自定义属性。
适用于
GetCustomAttributes(MemberInfo, Type, Boolean)
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
检索应用于类型成员的自定义属性的数组。 参数指定要搜索的成员、要搜索的自定义属性的类型以及是否搜索成员的上级。
public:
static cli::array <Attribute ^> ^ GetCustomAttributes(System::Reflection::MemberInfo ^ element, Type ^ type, bool inherit);public:
static cli::array <Attribute ^> ^ GetCustomAttributes(System::Reflection::MemberInfo ^ element, Type ^ attributeType, bool inherit);public static Attribute[] GetCustomAttributes (System.Reflection.MemberInfo element, Type type, bool inherit);public static Attribute[] GetCustomAttributes (System.Reflection.MemberInfo element, Type attributeType, bool inherit);static member GetCustomAttributes : System.Reflection.MemberInfo * Type * bool -> Attribute[]static member GetCustomAttributes : System.Reflection.MemberInfo * Type * bool -> Attribute[]Public Shared Function GetCustomAttributes (element As MemberInfo, type As Type, inherit As Boolean) As Attribute()Public Shared Function GetCustomAttributes (element As MemberInfo, attributeType As Type, inherit As Boolean) As Attribute()参数
- element
- MemberInfo
一个派生自 MemberInfo 类的对象,该类描述类的构造函数、事件、字段、方法或属性成员。
- typeattributeType
- Type
要搜索的自定义属性的类型或基类型。
- inherit
- Boolean
如果 true,则指定还搜索 element 的上级以获取自定义属性。
返回
一个 Attribute 数组,其中包含应用于 element的 type 类型的自定义属性;如果没有此类自定义属性,则为空数组。
例外
element 或 typenull。
type 不派生自 Attribute。
element 不是构造函数、方法、属性、事件、类型或字段。
无法加载自定义属性类型。
示例
下面的代码示例演示如何使用 GetCustomAttributes,以 MemberInfo 作为参数。
using namespace System;
using namespace System::Reflection;
using namespace System::Security;
using namespace System::Runtime::InteropServices;
namespace CustAttrs4CS
{
// Create a class for Win32 imported unmanaged functions.
public ref class Win32
{
public:
[DllImport("user32.dll", CharSet = CharSet::Unicode)]
static int MessageBox( int hWnd, String^ text, String^ caption, UInt32 type );
};
public ref class AClass
{
public:
// Add some attributes to the Win32CallMethod.
[Obsolete("This method is obsolete. Use managed MsgBox instead.")]
void Win32CallMethod()
{
Win32::MessageBox( 0, "This is an unmanaged call.", "Be Careful!", 0 );
}
};
ref class DemoClass
{
public:
static void Main()
{
// Get the Class type to access its metadata.
Type^ clsType = AClass::typeid;
// Get the type information for the Win32CallMethod.
MethodInfo^ mInfo = clsType->GetMethod( "Win32CallMethod" );
if ( mInfo != nullptr )
{
// Iterate through all the attributes for the method.
System::Collections::IEnumerator^ myEnum3 = Attribute::GetCustomAttributes( mInfo )->GetEnumerator();
while ( myEnum3->MoveNext() )
{
Attribute^ attr = safe_cast<Attribute^>(myEnum3->Current);
// Check for the Obsolete attribute.
if ( attr->GetType() == ObsoleteAttribute::typeid )
{
Console::WriteLine( "Method {0} is obsolete. "
"The message is:", mInfo->Name );
Console::WriteLine( (dynamic_cast<ObsoleteAttribute^>(attr))->Message );
}
// Check for the SuppressUnmanagedCodeSecurity attribute.
else
// Check for the SuppressUnmanagedCodeSecurity attribute.
if ( attr->GetType() == SuppressUnmanagedCodeSecurityAttribute::typeid )
{
Console::WriteLine( "This method calls unmanaged code "
"with no security check." );
Console::WriteLine( "Please do not use unless absolutely necessary." );
AClass^ myCls = gcnew AClass;
myCls->Win32CallMethod();
}
}
}
}
};
}
/*
* Output:
* Method Win32CallMethod is obsolete. The message is:
* This method is obsolete. Use managed MsgBox instead.
* This method calls unmanaged code with no security check.
* Please do not use unless absolutely necessary.
*/
using System;
using System.Reflection;
using System.Security;
using System.Runtime.InteropServices;
namespace CustAttrs4CS
{
// Define an enumeration of Win32 unmanaged types
public enum UnmanagedType
{
User,
GDI,
Kernel,
Shell,
Networking,
Multimedia
}
// Define the Unmanaged attribute.
public class UnmanagedAttribute : Attribute
{
// Storage for the UnmanagedType value.
protected UnmanagedType thisType;
// Set the unmanaged type in the constructor.
public UnmanagedAttribute(UnmanagedType type)
{
thisType = type;
}
// Define a property to get and set the UnmanagedType value.
public UnmanagedType Win32Type
{
get { return thisType; }
set { thisType = Win32Type; }
}
}
// Create a class for an imported Win32 unmanaged function.
public class Win32 {
[DllImport("user32.dll", CharSet = CharSet.Unicode)]
public static extern int MessageBox(int hWnd, String text,
String caption, uint type);
}
public class AClass {
// Add some attributes to Win32CallMethod.
[Obsolete("This method is obsolete. Use managed MsgBox instead.")]
[Unmanaged(UnmanagedType.User)]
public void Win32CallMethod()
{
Win32.MessageBox(0, "This is an unmanaged call.", "Caution!", 0);
}
}
class DemoClass {
static void Main(string[] args)
{
// Get the AClass type to access its metadata.
Type clsType = typeof(AClass);
// Get the type information for Win32CallMethod.
MethodInfo mInfo = clsType.GetMethod("Win32CallMethod");
if (mInfo != null)
{
// Iterate through all the attributes of the method.
foreach(Attribute attr in
Attribute.GetCustomAttributes(mInfo)) {
// Check for the Obsolete attribute.
if (attr.GetType() == typeof(ObsoleteAttribute))
{
Console.WriteLine("Method {0} is obsolete. " +
"The message is:",
mInfo.Name);
Console.WriteLine(" \"{0}\"",
((ObsoleteAttribute)attr).Message);
}
// Check for the Unmanaged attribute.
else if (attr.GetType() == typeof(UnmanagedAttribute))
{
Console.WriteLine(
"This method calls unmanaged code.");
Console.WriteLine(
String.Format("The Unmanaged attribute type is {0}.",
((UnmanagedAttribute)attr).Win32Type));
AClass myCls = new AClass();
myCls.Win32CallMethod();
}
}
}
}
}
}
/*
This code example produces the following results.
First, the compilation yields the warning, "... This method is
obsolete. Use managed MsgBox instead."
Second, execution yields a message box with a title of "Caution!"
and message text of "This is an unmanaged call."
Third, the following text is displayed in the console window:
Method Win32CallMethod is obsolete. The message is:
"This method is obsolete. Use managed MsgBox instead."
This method calls unmanaged code.
The Unmanaged attribute type is User.
*/
open System
open System.Runtime.InteropServices
// Define an enumeration of Win32 unmanaged types
type UnmanagedType =
| User = 0
| GDI = 1
| Kernel = 2
| Shell = 3
| Networking = 4
| Multimedia = 5
// Define the Unmanaged attribute.
type UnmanagedAttribute(unmanagedType) =
inherit Attribute()
// Define a property to get and set the UnmanagedType value.
member val Win32Type = unmanagedType with get, set
// Create a module for an imported Win32 unmanaged function.
module Win32 =
[<DllImport("user32.dll", CharSet = CharSet.Unicode)>]
extern int MessageBox(IntPtr hWnd, String text, String caption, uint ``type``)
type AClass() =
// Add some attributes to Win32CallMethod.
[<Obsolete "This method is obsolete. Use managed MsgBox instead.">]
[<Unmanaged(UnmanagedType.User)>]
member _.Win32CallMethod () =
Win32.MessageBox(0, "This is an unmanaged call.", "Caution!", 0u)
// Get the AClass type to access its metadata.
let clsType = typeof<AClass>
// Get the type information for Win32CallMethod.
let mInfo = clsType.GetMethod "Win32CallMethod"
if mInfo <> null then
// Iterate through all the attributes of the method.
for attr in Attribute.GetCustomAttributes mInfo do
match attr with
// Check for the Obsolete attribute.
| :? ObsoleteAttribute as attr ->
printfn $"Method {mInfo.Name} is obsolete. The message is:"
printfn $" \"{attr.Message}\""
// Check for the Unmanaged attribute.
| :? UnmanagedAttribute as attr ->
printfn "This method calls unmanaged code."
printfn $"The Unmanaged attribute type is {attr.Win32Type}."
let myCls = AClass()
myCls.Win32CallMethod() |> ignore
| _ -> ()
// This code example produces the following results.
//
// First, the compilation yields the warning, "... This method is
// obsolete. Use managed MsgBox instead."
// Second, execution yields a message box with a title of "Caution!"
// and message text of "This is an unmanaged call."
// Third, the following text is displayed in the console window:
// Method Win32CallMethod is obsolete. The message is:
// "This method is obsolete. Use managed MsgBox instead."
// This method calls unmanaged code.
// The Unmanaged attribute type is User.
Imports System.Reflection
Imports System.Security
Imports System.Runtime.InteropServices
' Define an enumeration of Win32 unmanaged types
Public Enum UnmanagedType
User
GDI
Kernel
Shell
Networking
Multimedia
End Enum 'UnmanagedType
' Define the Unmanaged attribute.
Public Class UnmanagedAttribute
Inherits Attribute
' Storage for the UnmanagedType value.
Protected thisType As UnmanagedType
' Set the unmanaged type in the constructor.
Public Sub New(ByVal type As UnmanagedType)
thisType = type
End Sub
' Define a property to get and set the UnmanagedType value.
Public Property Win32Type() As UnmanagedType
Get
Return thisType
End Get
Set
thisType = Win32Type
End Set
End Property
End Class
' Create a class for an imported Win32 unmanaged function.
Public Class Win32
<DllImport("user32.dll", CharSet:=CharSet.Unicode)> _
Public Shared Function MessageBox(ByVal hWnd As Integer, _
ByVal Text As String, _
ByVal caption As String, _
ByVal type As Integer) As Integer
End Function 'MessageBox
End Class
Public Class AClass
' Add some attributes to Win32CallMethod.
<Obsolete("This method is obsolete. Use managed MsgBox instead."), _
Unmanaged(UnmanagedType.User)> _
Public Sub Win32CallMethod()
Win32.MessageBox(0, "This is an unmanaged call.", "Caution!", 0)
End Sub
End Class
Class DemoClass
Shared Sub Main(ByVal args() As String)
' Get the AClass type to access its metadata.
Dim clsType As Type = GetType(AClass)
' Get the type information for Win32CallMethod.
Dim mInfo As MethodInfo = clsType.GetMethod("Win32CallMethod")
If Not (mInfo Is Nothing) Then
' Iterate through all the attributes of the method.
Dim attr As Attribute
For Each attr In Attribute.GetCustomAttributes(mInfo)
' Check for the Obsolete attribute.
If attr.GetType().Equals(GetType(ObsoleteAttribute)) Then
Console.WriteLine("Method {0} is obsolete. The message is:", mInfo.Name)
Console.WriteLine(" ""{0}""", CType(attr, ObsoleteAttribute).Message)
' Check for the Unmanaged attribute.
ElseIf attr.GetType().Equals(GetType(UnmanagedAttribute)) Then
Console.WriteLine("This method calls unmanaged code.")
Console.WriteLine( _
String.Format("The Unmanaged attribute type is {0}.", _
CType(attr, UnmanagedAttribute).Win32Type))
Dim myCls As New AClass()
myCls.Win32CallMethod()
End If
Next attr
End If
End Sub
End Class
'
'This code example produces the following results.
'
'First, the compilation yields the warning, "... This method is
'obsolete. Use managed MsgBox instead."
'Second, execution yields a message box with a title of "Caution!"
'and message text of "This is an unmanaged call."
'Third, the following text is displayed in the console window:
'
'Method Win32CallMethod is obsolete. The message is:
' "This method is obsolete. Use managed MsgBox instead."
'This method calls unmanaged code.
'The Unmanaged attribute type is User.
'
注解
如果 inherittrue,则返回值包含 element 的上级自定义属性。
注意
从 .NET Framework 版本 2.0 开始,如果属性以新的元数据格式存储,此方法将返回方法、构造函数和类型的安全属性。 使用版本 2.0 或更高版本编译的程序集使用新格式。 使用早期版本的 .NET Framework 编译的动态程序集和程序集使用旧的 XML 格式。 请参阅 发出声明性安全属性。
适用于
GetCustomAttributes(ParameterInfo, Type, Boolean)
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
检索应用于方法参数的自定义特性的数组。 参数指定要搜索的方法参数、要搜索的自定义属性的类型,以及是否搜索方法参数的上级。
public:
static cli::array <Attribute ^> ^ GetCustomAttributes(System::Reflection::ParameterInfo ^ element, Type ^ attributeType, bool inherit);public static Attribute[] GetCustomAttributes (System.Reflection.ParameterInfo element, Type attributeType, bool inherit);static member GetCustomAttributes : System.Reflection.ParameterInfo * Type * bool -> Attribute[]Public Shared Function GetCustomAttributes (element As ParameterInfo, attributeType As Type, inherit As Boolean) As Attribute()参数
- element
- ParameterInfo
一个派生自 ParameterInfo 类的对象,该类描述类的成员的参数。
- attributeType
- Type
要搜索的自定义属性的类型或基类型。
- inherit
- Boolean
如果 true,则指定还搜索 element 的上级以获取自定义属性。
返回
一个 Attribute 数组,其中包含应用于 element的 attributeType 类型的自定义属性;如果没有此类自定义属性,则为空数组。
例外
element 或 attributeTypenull。
attributeType 不派生自 Attribute。
无法加载自定义属性类型。
示例
下面的代码示例演示如何使用 GetCustomAttributes,以 ParameterInfo 作为参数。
using namespace System;
using namespace System::Reflection;
using namespace System::ComponentModel;
namespace CustAttrs5CS
{
public ref class AClass
{
public:
void ParamArrayAndDesc(
// Add ParamArray and Description attributes.
[Description("This argument is a ParamArray")]
array<Int32>^args )
{}
};
ref class DemoClass
{
public:
static void Main()
{
// Get the Class type to access its metadata.
Type^ clsType = AClass::typeid;
// Get the type information for the method.
MethodInfo^ mInfo = clsType->GetMethod( "ParamArrayAndDesc" );
if ( mInfo != nullptr )
{
// Get the parameter information.
array<ParameterInfo^>^pInfo = mInfo->GetParameters();
if ( pInfo != nullptr )
{
// Iterate through all the attributes for the parameter.
System::Collections::IEnumerator^ myEnum4 = Attribute::GetCustomAttributes( pInfo[ 0 ] )->GetEnumerator();
while ( myEnum4->MoveNext() )
{
Attribute^ attr = safe_cast<Attribute^>(myEnum4->Current);
// Check for the ParamArray attribute.
if ( attr->GetType() == ParamArrayAttribute::typeid )
Console::WriteLine( "Parameter {0} for method {1} "
"has the ParamArray attribute.", pInfo[ 0 ]->Name, mInfo->Name );
// Check for the Description attribute.
else
// Check for the Description attribute.
if ( attr->GetType() == DescriptionAttribute::typeid )
{
Console::WriteLine( "Parameter {0} for method {1} "
"has a description attribute.", pInfo[ 0 ]->Name, mInfo->Name );
Console::WriteLine( "The description is: \"{0}\"", (dynamic_cast<DescriptionAttribute^>(attr))->Description );
}
}
}
}
}
};
}
/*
* Output:
* Parameter args for method ParamArrayAndDesc has the ParamArray attribute.
* Parameter args for method ParamArrayAndDesc has a description attribute.
* The description is: "This argument is a ParamArray"
*/
using System;
using System.Reflection;
using System.ComponentModel;
namespace CustAttrs5CS {
public class AClass {
public void ParamArrayAndDesc(
// Add ParamArray (with the keyword) and Description attributes.
[Description("This argument is a ParamArray")]
params int[] args)
{}
}
class DemoClass {
static void Main(string[] args) {
// Get the Class type to access its metadata.
Type clsType = typeof(AClass);
// Get the type information for the method.
MethodInfo mInfo = clsType.GetMethod("ParamArrayAndDesc");
if (mInfo != null) {
// Get the parameter information.
ParameterInfo[] pInfo = mInfo.GetParameters();
if (pInfo != null) {
// Iterate through all the attributes for the parameter.
foreach(Attribute attr in
Attribute.GetCustomAttributes(pInfo[0])) {
// Check for the ParamArray attribute.
if (attr.GetType() == typeof(ParamArrayAttribute))
Console.WriteLine("Parameter {0} for method {1} " +
"has the ParamArray attribute.",
pInfo[0].Name, mInfo.Name);
// Check for the Description attribute.
else if (attr.GetType() ==
typeof(DescriptionAttribute)) {
Console.WriteLine("Parameter {0} for method {1} " +
"has a description attribute.",
pInfo[0].Name, mInfo.Name);
Console.WriteLine("The description is: \"{0}\"",
((DescriptionAttribute)attr).Description);
}
}
}
}
}
}
}
/*
* Output:
* Parameter args for method ParamArrayAndDesc has the ParamArray attribute.
* Parameter args for method ParamArrayAndDesc has a description attribute.
* The description is: "This argument is a ParamArray"
*/
open System
open System.Reflection
open System.ComponentModel
type AClass() =
member _.ParamArrayAndDesc(
// Add ParamArray and Description attributes.
[<Description "This argument is a ParamArray">]
[<ParamArray>]
args: int[]) = ()
// Get the Class type to access its metadata.
let clsType = typeof<AClass>
// Get the type information for the method.
let mInfo = clsType.GetMethod "ParamArrayAndDesc"
if mInfo <> null then
// Get the parameter information.
let pInfo = mInfo.GetParameters()
if pInfo <> null then
// Iterate through all the attributes for the parameter.
for attr in Attribute.GetCustomAttributes pInfo[0] do
match attr with
// Check for the ParamArray attribute.
| :? ParamArrayAttribute ->
printfn $"Parameter {pInfo[0].Name} for method {mInfo.Name} has the ParamArray attribute."
// Check for the Description attribute.
| :? DescriptionAttribute as attr ->
printfn $"Parameter {pInfo[0].Name} for method {mInfo.Name} has a description attribute."
printfn $"The description is: \"{attr.Description}\""
| _ -> ()
// Output:
// Parameter args for method ParamArrayAndDesc has a description attribute.
// The description is: "This argument is a ParamArray"
// Parameter args for method ParamArrayAndDesc has the ParamArray attribute.
Imports System.Reflection
Imports System.ComponentModel
Module DemoModule
Public Class AClass
' Add Description and ParamArray (with the keyword) attributes.
Public Sub ParamArrayAndDesc( _
<Description("This argument is a ParamArray")> _
ByVal ParamArray args() As Integer)
End Sub
End Class
Sub Main()
' Get the Class type to access its metadata.
Dim clsType As Type = GetType(AClass)
' Get the type information for the method.
Dim mInfo As MethodInfo = clsType.GetMethod("ParamArrayAndDesc")
' Get the Parameter information for the method.
Dim pInfo() As ParameterInfo = mInfo.GetParameters()
Dim attr As Attribute
' Iterate through each attribute of the parameter.
For Each attr In Attribute.GetCustomAttributes(pInfo(0))
' Check for the ParamArray attribute.
If TypeOf attr Is ParamArrayAttribute Then
' Convert the attribute to access its data.
Dim paAttr As ParamArrayAttribute = _
CType(attr, ParamArrayAttribute)
Console.WriteLine("Parameter {0} for method {1} has the " + _
"ParamArray attribute.", pInfo(0).Name, mInfo.Name)
' Check for the Description attribute.
ElseIf TypeOf attr Is DescriptionAttribute Then
' Convert the attribute to access its data.
Dim descAttr As DescriptionAttribute = _
CType(attr, DescriptionAttribute)
Console.WriteLine("Parameter {0} for method {1} has a description " + _
"attribute. The description is:", pInfo(0).Name, mInfo.Name)
Console.WriteLine(descAttr.Description)
End If
Next
End Sub
End Module
' Output:
' Parameter args for method ParamArrayAndDesc has the ParamArray attribute.
' Parameter args for method ParamArrayAndDesc has a description attribute. The description is:
' This argument is a ParamArray
注解
如果 element 表示派生类型方法中的参数,则返回值包括应用于重写基方法中相同参数的可继承自定义属性。
适用于
GetCustomAttributes(Module, Type, Boolean)
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
检索应用于模块的自定义属性的数组。 参数指定要搜索的模块、要搜索的自定义属性的类型和忽略的搜索选项。
public:
static cli::array <Attribute ^> ^ GetCustomAttributes(System::Reflection::Module ^ element, Type ^ attributeType, bool inherit);public static Attribute[] GetCustomAttributes (System.Reflection.Module element, Type attributeType, bool inherit);static member GetCustomAttributes : System.Reflection.Module * Type * bool -> Attribute[]Public Shared Function GetCustomAttributes (element As Module, attributeType As Type, inherit As Boolean) As Attribute()参数
- attributeType
- Type
要搜索的自定义属性的类型或基类型。
- inherit
- Boolean
忽略此参数,不会影响此方法的操作。
返回
一个 Attribute 数组,其中包含应用于 element的 attributeType 类型的自定义属性;如果没有此类自定义属性,则为空数组。
例外
element 或 attributeTypenull。
attributeType 不派生自 Attribute。
示例
下面的代码示例演示如何使用 GetCustomAttributes,以 Module 作为参数。
using namespace System;
using namespace System::Reflection;
using namespace System::ComponentModel;
// Assign some attributes to the module.
// Set the module's CLSCompliant attribute to false
// The CLSCompliant attribute is applicable for /target:module.
[module:Description("A sample description")];
[module:CLSCompliant(false)];
namespace CustAttrs2CS
{
ref class DemoClass
{
public:
static void Main()
{
Type^ clsType = DemoClass::typeid;
// Get the Module type to access its metadata.
Module^ module = clsType->Module;
// Iterate through all the attributes for the module.
System::Collections::IEnumerator^ myEnum1 = Attribute::GetCustomAttributes( module )->GetEnumerator();
while ( myEnum1->MoveNext() )
{
Attribute^ attr = safe_cast<Attribute^>(myEnum1->Current);
// Check for the Description attribute.
if ( attr->GetType() == DescriptionAttribute::typeid )
Console::WriteLine( "Module {0} has the description \"{1}\".", module->Name, (dynamic_cast<DescriptionAttribute^>(attr))->Description );
// Check for the CLSCompliant attribute.
else
// Check for the CLSCompliant attribute.
if ( attr->GetType() == CLSCompliantAttribute::typeid )
Console::WriteLine( "Module {0} {1} CLSCompliant.", module->Name, (dynamic_cast<CLSCompliantAttribute^>(attr))->IsCompliant ? (String^)"is" : "is not" );
}
}
};
}
/*
* Output:
* Module CustAttrs2CS.exe is not CLSCompliant.
* Module CustAttrs2CS.exe has the description "A sample description".
*/
using System;
using System.Reflection;
using System.ComponentModel;
// Assign some attributes to the module.
[module:Description("A sample description")]
// Set the module's CLSCompliant attribute to false
// The CLSCompliant attribute is applicable for /target:module.
[module:CLSCompliant(false)]
namespace CustAttrs2CS {
class DemoClass {
static void Main(string[] args) {
Type clsType = typeof(DemoClass);
// Get the Module type to access its metadata.
Module module = clsType.Module;
// Iterate through all the attributes for the module.
foreach(Attribute attr in Attribute.GetCustomAttributes(module)) {
// Check for the Description attribute.
if (attr.GetType() == typeof(DescriptionAttribute))
Console.WriteLine("Module {0} has the description " +
"\"{1}\".", module.Name,
((DescriptionAttribute)attr).Description);
// Check for the CLSCompliant attribute.
else if (attr.GetType() == typeof(CLSCompliantAttribute))
Console.WriteLine("Module {0} {1} CLSCompliant.",
module.Name,
((CLSCompliantAttribute)attr).IsCompliant ?
"is" : "is not");
}
}
}
}
/*
* Output:
* Module CustAttrs2CS.exe is not CLSCompliant.
* Module CustAttrs2CS.exe has the description "A sample description".
*/
open System
open System.ComponentModel
// Assign some attributes to the module.
[<``module``: Description "A sample description">]
// Set the module's CLSCompliant attribute to false
// The CLSCompliant attribute is applicable for /target:module.
[<``module``: CLSCompliant false>]
do ()
type DemoClass = class end
// Get the Module type to access its metadata.
let ilmodule = typeof<DemoClass>.Module
// Iterate through all the attributes for the module.
for attr in Attribute.GetCustomAttributes ilmodule do
match attr with
// Check for the Description attribute.
| :? DescriptionAttribute as attr ->
printfn $"Module {ilmodule.Name} has the description \"{attr.Description}\"."
// Check for the CLSCompliant attribute.
| :? CLSCompliantAttribute as attr ->
printfn $"""Module {ilmodule.Name} {if attr.IsCompliant then "is" else "is not"} CLSCompliant."""
| _ -> ()
// Output:
// Module CustAttrs2CS.exe is not CLSCompliant.
// Module CustAttrs2CS.exe has the description "A sample description".
Imports System.Reflection
Imports System.ComponentModel
' Give the Module some attributes.
<Module: Description("A sample description")>
' Make the CLSCompliant attribute False.
' The CLSCompliant attribute is applicable for /target:module.
<Module: CLSCompliant(False)>
Module DemoModule
Sub Main()
' Get the Module type to access its metadata.
Dim modType As Reflection.Module = GetType(DemoModule).Module
Dim attr As Attribute
' Iterate through all the attributes for the module.
For Each attr In Attribute.GetCustomAttributes(modType)
' Check for the Description attribute.
If TypeOf attr Is DescriptionAttribute Then
' Convert the attribute to access its data.
Dim descAttr As DescriptionAttribute = _
CType(attr, DescriptionAttribute)
Console.WriteLine("Module {0} has the description ""{1}"".", _
modType.Name, descAttr.Description)
' Check for the CLSCompliant attribute.
ElseIf TypeOf attr Is CLSCompliantAttribute Then
' Convert the attribute to access its data.
Dim CLSCompAttr As CLSCompliantAttribute = _
CType(attr, CLSCompliantAttribute)
Dim strCompliant As String
If CLSCompAttr.IsCompliant Then
strCompliant = "is"
Else
strCompliant = "is not"
End If
Console.WriteLine("Module {0} {1} CLSCompliant.", _
modType.Name, strCompliant)
End If
Next
End Sub
End Module
' Output:
' Module CustAttrs2VB.exe has the description "A sample description".
' Module CustAttrs2VB.exe is not CLSCompliant.
注解
如果 inherittrue,则返回值包含 element 的上级自定义属性。
适用于
GetCustomAttributes(MemberInfo, Type)
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
检索应用于类型成员的自定义属性的数组。 参数指定要搜索的成员和自定义属性的类型。
public:
static cli::array <Attribute ^> ^ GetCustomAttributes(System::Reflection::MemberInfo ^ element, Type ^ type);public:
static cli::array <Attribute ^> ^ GetCustomAttributes(System::Reflection::MemberInfo ^ element, Type ^ attributeType);public static Attribute[] GetCustomAttributes (System.Reflection.MemberInfo element, Type type);public static Attribute[] GetCustomAttributes (System.Reflection.MemberInfo element, Type attributeType);static member GetCustomAttributes : System.Reflection.MemberInfo * Type -> Attribute[]static member GetCustomAttributes : System.Reflection.MemberInfo * Type -> Attribute[]Public Shared Function GetCustomAttributes (element As MemberInfo, type As Type) As Attribute()Public Shared Function GetCustomAttributes (element As MemberInfo, attributeType As Type) As Attribute()参数
- element
- MemberInfo
一个派生自 MemberInfo 类的对象,该类描述类的构造函数、事件、字段、方法或属性成员。
- typeattributeType
- Type
要搜索的自定义属性的类型或基类型。
返回
一个 Attribute 数组,其中包含应用于 element的 type 类型的自定义属性;如果没有此类自定义属性,则为空数组。
例外
element 或 typenull。
type 不派生自 Attribute。
element 不是构造函数、方法、属性、事件、类型或字段。
无法加载自定义属性类型。
示例
下面的代码示例演示如何使用 GetCustomAttribute,以 MemberInfo 作为参数。
using namespace System;
using namespace System::Reflection;
using namespace System::Security;
using namespace System::Runtime::InteropServices;
namespace CustAttrs4CS
{
// Create a class for Win32 imported unmanaged functions.
public ref class Win32
{
public:
[DllImport("user32.dll", CharSet = CharSet::Unicode)]
static int MessageBox( int hWnd, String^ text, String^ caption, UInt32 type );
};
public ref class AClass
{
public:
// Add some attributes to the Win32CallMethod.
[Obsolete("This method is obsolete. Use managed MsgBox instead.")]
void Win32CallMethod()
{
Win32::MessageBox( 0, "This is an unmanaged call.", "Be Careful!", 0 );
}
};
ref class DemoClass
{
public:
static void Main()
{
// Get the Class type to access its metadata.
Type^ clsType = AClass::typeid;
// Get the type information for the Win32CallMethod.
MethodInfo^ mInfo = clsType->GetMethod( "Win32CallMethod" );
if ( mInfo != nullptr )
{
// Iterate through all the attributes for the method.
System::Collections::IEnumerator^ myEnum3 = Attribute::GetCustomAttributes( mInfo )->GetEnumerator();
while ( myEnum3->MoveNext() )
{
Attribute^ attr = safe_cast<Attribute^>(myEnum3->Current);
// Check for the Obsolete attribute.
if ( attr->GetType() == ObsoleteAttribute::typeid )
{
Console::WriteLine( "Method {0} is obsolete. "
"The message is:", mInfo->Name );
Console::WriteLine( (dynamic_cast<ObsoleteAttribute^>(attr))->Message );
}
// Check for the SuppressUnmanagedCodeSecurity attribute.
else
// Check for the SuppressUnmanagedCodeSecurity attribute.
if ( attr->GetType() == SuppressUnmanagedCodeSecurityAttribute::typeid )
{
Console::WriteLine( "This method calls unmanaged code "
"with no security check." );
Console::WriteLine( "Please do not use unless absolutely necessary." );
AClass^ myCls = gcnew AClass;
myCls->Win32CallMethod();
}
}
}
}
};
}
/*
* Output:
* Method Win32CallMethod is obsolete. The message is:
* This method is obsolete. Use managed MsgBox instead.
* This method calls unmanaged code with no security check.
* Please do not use unless absolutely necessary.
*/
using System;
using System.Reflection;
using System.Security;
using System.Runtime.InteropServices;
namespace CustAttrs4CS
{
// Define an enumeration of Win32 unmanaged types
public enum UnmanagedType
{
User,
GDI,
Kernel,
Shell,
Networking,
Multimedia
}
// Define the Unmanaged attribute.
public class UnmanagedAttribute : Attribute
{
// Storage for the UnmanagedType value.
protected UnmanagedType thisType;
// Set the unmanaged type in the constructor.
public UnmanagedAttribute(UnmanagedType type)
{
thisType = type;
}
// Define a property to get and set the UnmanagedType value.
public UnmanagedType Win32Type
{
get { return thisType; }
set { thisType = Win32Type; }
}
}
// Create a class for an imported Win32 unmanaged function.
public class Win32 {
[DllImport("user32.dll", CharSet = CharSet.Unicode)]
public static extern int MessageBox(int hWnd, String text,
String caption, uint type);
}
public class AClass {
// Add some attributes to Win32CallMethod.
[Obsolete("This method is obsolete. Use managed MsgBox instead.")]
[Unmanaged(UnmanagedType.User)]
public void Win32CallMethod()
{
Win32.MessageBox(0, "This is an unmanaged call.", "Caution!", 0);
}
}
class DemoClass {
static void Main(string[] args)
{
// Get the AClass type to access its metadata.
Type clsType = typeof(AClass);
// Get the type information for Win32CallMethod.
MethodInfo mInfo = clsType.GetMethod("Win32CallMethod");
if (mInfo != null)
{
// Iterate through all the attributes of the method.
foreach(Attribute attr in
Attribute.GetCustomAttributes(mInfo)) {
// Check for the Obsolete attribute.
if (attr.GetType() == typeof(ObsoleteAttribute))
{
Console.WriteLine("Method {0} is obsolete. " +
"The message is:",
mInfo.Name);
Console.WriteLine(" \"{0}\"",
((ObsoleteAttribute)attr).Message);
}
// Check for the Unmanaged attribute.
else if (attr.GetType() == typeof(UnmanagedAttribute))
{
Console.WriteLine(
"This method calls unmanaged code.");
Console.WriteLine(
String.Format("The Unmanaged attribute type is {0}.",
((UnmanagedAttribute)attr).Win32Type));
AClass myCls = new AClass();
myCls.Win32CallMethod();
}
}
}
}
}
}
/*
This code example produces the following results.
First, the compilation yields the warning, "... This method is
obsolete. Use managed MsgBox instead."
Second, execution yields a message box with a title of "Caution!"
and message text of "This is an unmanaged call."
Third, the following text is displayed in the console window:
Method Win32CallMethod is obsolete. The message is:
"This method is obsolete. Use managed MsgBox instead."
This method calls unmanaged code.
The Unmanaged attribute type is User.
*/
open System
open System.Runtime.InteropServices
// Define an enumeration of Win32 unmanaged types
type UnmanagedType =
| User = 0
| GDI = 1
| Kernel = 2
| Shell = 3
| Networking = 4
| Multimedia = 5
// Define the Unmanaged attribute.
type UnmanagedAttribute(unmanagedType) =
inherit Attribute()
// Define a property to get and set the UnmanagedType value.
member val Win32Type = unmanagedType with get, set
// Create a module for an imported Win32 unmanaged function.
module Win32 =
[<DllImport("user32.dll", CharSet = CharSet.Unicode)>]
extern int MessageBox(IntPtr hWnd, String text, String caption, uint ``type``)
type AClass() =
// Add some attributes to Win32CallMethod.
[<Obsolete "This method is obsolete. Use managed MsgBox instead.">]
[<Unmanaged(UnmanagedType.User)>]
member _.Win32CallMethod () =
Win32.MessageBox(0, "This is an unmanaged call.", "Caution!", 0u)
// Get the AClass type to access its metadata.
let clsType = typeof<AClass>
// Get the type information for Win32CallMethod.
let mInfo = clsType.GetMethod "Win32CallMethod"
if mInfo <> null then
// Iterate through all the attributes of the method.
for attr in Attribute.GetCustomAttributes mInfo do
match attr with
// Check for the Obsolete attribute.
| :? ObsoleteAttribute as attr ->
printfn $"Method {mInfo.Name} is obsolete. The message is:"
printfn $" \"{attr.Message}\""
// Check for the Unmanaged attribute.
| :? UnmanagedAttribute as attr ->
printfn "This method calls unmanaged code."
printfn $"The Unmanaged attribute type is {attr.Win32Type}."
let myCls = AClass()
myCls.Win32CallMethod() |> ignore
| _ -> ()
// This code example produces the following results.
//
// First, the compilation yields the warning, "... This method is
// obsolete. Use managed MsgBox instead."
// Second, execution yields a message box with a title of "Caution!"
// and message text of "This is an unmanaged call."
// Third, the following text is displayed in the console window:
// Method Win32CallMethod is obsolete. The message is:
// "This method is obsolete. Use managed MsgBox instead."
// This method calls unmanaged code.
// The Unmanaged attribute type is User.
Imports System.Reflection
Imports System.Security
Imports System.Runtime.InteropServices
' Define an enumeration of Win32 unmanaged types
Public Enum UnmanagedType
User
GDI
Kernel
Shell
Networking
Multimedia
End Enum 'UnmanagedType
' Define the Unmanaged attribute.
Public Class UnmanagedAttribute
Inherits Attribute
' Storage for the UnmanagedType value.
Protected thisType As UnmanagedType
' Set the unmanaged type in the constructor.
Public Sub New(ByVal type As UnmanagedType)
thisType = type
End Sub
' Define a property to get and set the UnmanagedType value.
Public Property Win32Type() As UnmanagedType
Get
Return thisType
End Get
Set
thisType = Win32Type
End Set
End Property
End Class
' Create a class for an imported Win32 unmanaged function.
Public Class Win32
<DllImport("user32.dll", CharSet:=CharSet.Unicode)> _
Public Shared Function MessageBox(ByVal hWnd As Integer, _
ByVal Text As String, _
ByVal caption As String, _
ByVal type As Integer) As Integer
End Function 'MessageBox
End Class
Public Class AClass
' Add some attributes to Win32CallMethod.
<Obsolete("This method is obsolete. Use managed MsgBox instead."), _
Unmanaged(UnmanagedType.User)> _
Public Sub Win32CallMethod()
Win32.MessageBox(0, "This is an unmanaged call.", "Caution!", 0)
End Sub
End Class
Class DemoClass
Shared Sub Main(ByVal args() As String)
' Get the AClass type to access its metadata.
Dim clsType As Type = GetType(AClass)
' Get the type information for Win32CallMethod.
Dim mInfo As MethodInfo = clsType.GetMethod("Win32CallMethod")
If Not (mInfo Is Nothing) Then
' Iterate through all the attributes of the method.
Dim attr As Attribute
For Each attr In Attribute.GetCustomAttributes(mInfo)
' Check for the Obsolete attribute.
If attr.GetType().Equals(GetType(ObsoleteAttribute)) Then
Console.WriteLine("Method {0} is obsolete. The message is:", mInfo.Name)
Console.WriteLine(" ""{0}""", CType(attr, ObsoleteAttribute).Message)
' Check for the Unmanaged attribute.
ElseIf attr.GetType().Equals(GetType(UnmanagedAttribute)) Then
Console.WriteLine("This method calls unmanaged code.")
Console.WriteLine( _
String.Format("The Unmanaged attribute type is {0}.", _
CType(attr, UnmanagedAttribute).Win32Type))
Dim myCls As New AClass()
myCls.Win32CallMethod()
End If
Next attr
End If
End Sub
End Class
'
'This code example produces the following results.
'
'First, the compilation yields the warning, "... This method is
'obsolete. Use managed MsgBox instead."
'Second, execution yields a message box with a title of "Caution!"
'and message text of "This is an unmanaged call."
'Third, the following text is displayed in the console window:
'
'Method Win32CallMethod is obsolete. The message is:
' "This method is obsolete. Use managed MsgBox instead."
'This method calls unmanaged code.
'The Unmanaged attribute type is User.
'
注解
返回值包含 element上级自定义属性。
注意
从 .NET Framework 版本 2.0 开始,如果属性以新的元数据格式存储,此方法将返回方法、构造函数和类型的安全属性。 使用版本 2.0 或更高版本编译的程序集使用新格式。 使用早期版本的 .NET Framework 编译的动态程序集和程序集使用旧的 XML 格式。 请参阅 发出声明性安全属性。
适用于
GetCustomAttributes(Assembly, Type, Boolean)
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
检索应用于程序集的自定义特性的数组。 参数指定要搜索的程序集、要搜索的自定义属性的类型和忽略的搜索选项。
public:
static cli::array <Attribute ^> ^ GetCustomAttributes(System::Reflection::Assembly ^ element, Type ^ attributeType, bool inherit);public static Attribute[] GetCustomAttributes (System.Reflection.Assembly element, Type attributeType, bool inherit);static member GetCustomAttributes : System.Reflection.Assembly * Type * bool -> Attribute[]Public Shared Function GetCustomAttributes (element As Assembly, attributeType As Type, inherit As Boolean) As Attribute()参数
- attributeType
- Type
要搜索的自定义属性的类型或基类型。
- inherit
- Boolean
忽略此参数,不会影响此方法的操作。
返回
一个 Attribute 数组,其中包含应用于 element的 attributeType 类型的自定义属性;如果没有此类自定义属性,则为空数组。
例外
element 或 attributeTypenull。
attributeType 不派生自 Attribute。
示例
下面的代码示例演示如何使用 GetCustomAttributes,以 Assembly 作为参数。
using namespace System;
using namespace System::Reflection;
[assembly:AssemblyTitle("CustAttrs1CPP")];
[assembly:AssemblyDescription("GetCustomAttributes() Demo")];
[assembly:AssemblyCompany("Microsoft")];
ref class Example
{};
static void main()
{
Type^ clsType = Example::typeid;
// Get the Assembly type to access its metadata.
Assembly^ assy = clsType->Assembly;
// Iterate through the attributes for the assembly.
System::Collections::IEnumerator^ myEnum = Attribute::GetCustomAttributes( assy )->GetEnumerator();
while ( myEnum->MoveNext() )
{
Attribute^ attr = safe_cast<Attribute^>(myEnum->Current);
// Check for the AssemblyTitle attribute.
if ( attr->GetType() == AssemblyTitleAttribute::typeid )
Console::WriteLine( "Assembly title is \"{0}\".", (dynamic_cast<AssemblyTitleAttribute^>(attr))->Title );
// Check for the AssemblyDescription attribute.
else
// Check for the AssemblyDescription attribute.
if ( attr->GetType() == AssemblyDescriptionAttribute::typeid )
Console::WriteLine( "Assembly description is \"{0}\".", (dynamic_cast<AssemblyDescriptionAttribute^>(attr))->Description );
// Check for the AssemblyCompany attribute.
else if ( attr->GetType() == AssemblyCompanyAttribute::typeid )
Console::WriteLine( "Assembly company is {0}.", (dynamic_cast<AssemblyCompanyAttribute^>(attr))->Company );
}
}
// The example displays the following output:
// Assembly description is "GetCustomAttributes() Demo".
// Assembly company is Microsoft.
// Assembly title is "CustAttrs1CPP".
using System;
using System.Reflection;
[assembly: AssemblyTitle("CustAttrs1CS")]
[assembly: AssemblyDescription("GetCustomAttributes() Demo")]
[assembly: AssemblyCompany("Microsoft")]
class Example {
static void Main() {
// Get the Assembly object to access its metadata.
Assembly assy = typeof(Example).Assembly;
// Iterate through the attributes for the assembly.
foreach(Attribute attr in Attribute.GetCustomAttributes(assy)) {
// Check for the AssemblyTitle attribute.
if (attr.GetType() == typeof(AssemblyTitleAttribute))
Console.WriteLine("Assembly title is \"{0}\".",
((AssemblyTitleAttribute)attr).Title);
// Check for the AssemblyDescription attribute.
else if (attr.GetType() ==
typeof(AssemblyDescriptionAttribute))
Console.WriteLine("Assembly description is \"{0}\".",
((AssemblyDescriptionAttribute)attr).Description);
// Check for the AssemblyCompany attribute.
else if (attr.GetType() == typeof(AssemblyCompanyAttribute))
Console.WriteLine("Assembly company is {0}.",
((AssemblyCompanyAttribute)attr).Company);
}
}
}
// The example displays the following output:
// Assembly title is "CustAttrs1CS".
// Assembly description is "GetCustomAttributes() Demo".
// Assembly company is Microsoft.
open System
open System.Reflection
[<assembly: AssemblyTitle "CustAttrs1CS">]
[<assembly: AssemblyDescription "GetCustomAttributes() Demo">]
[<assembly: AssemblyCompany"Microsoft">]
do ()
type Example = class end
// Get the Assembly object to access its metadata.
let assembly = typeof<Example>.Assembly
// Iterate through the attributes for the assembly.
for attr in Attribute.GetCustomAttributes assembly do
match attr with
// Check for the AssemblyTitle attribute.
| :? AssemblyTitleAttribute as attr ->
printfn $"Assembly title is \"{attr.Title}\"."
// Check for the AssemblyDescription attribute.
| :? AssemblyDescriptionAttribute as attr ->
printfn $"Assembly description is \"{attr.Description}\"."
// Check for the AssemblyCompany attribute.
| :? AssemblyCompanyAttribute as attr ->
printfn $"Assembly company is {attr.Company}."
| _ -> ()
// The example displays the following output:
// Assembly title is "CustAttrs1CS".
// Assembly description is "GetCustomAttributes() Demo".
// Assembly company is Microsoft.
Imports System.Reflection
<Assembly: AssemblyTitle("CustAttrs1VB")>
<Assembly: AssemblyDescription("GetCustomAttributes() Demo")>
<Assembly: AssemblyCompany("Microsoft")>
Module Example
Sub Main()
' Get the Assembly type to access its metadata.
Dim assy As Reflection.Assembly = GetType(Example).Assembly
' Iterate through all the attributes for the assembly.
For Each attr As Attribute In Attribute.GetCustomAttributes(assy)
' Check for the AssemblyTitle attribute.
If TypeOf attr Is AssemblyTitleAttribute Then
' Convert the attribute to access its data.
Dim attrTitle As AssemblyTitleAttribute = _
CType(attr, AssemblyTitleAttribute)
Console.WriteLine("Assembly title is ""{0}"".", _
attrTitle.Title)
' Check for the AssemblyDescription attribute.
ElseIf TypeOf attr Is AssemblyDescriptionAttribute Then
' Convert the attribute to access its data.
Dim attrDesc As AssemblyDescriptionAttribute = _
CType(attr, AssemblyDescriptionAttribute)
Console.WriteLine("Assembly description is ""{0}"".", _
attrDesc.Description)
' Check for the AssemblyCompany attribute.
ElseIf TypeOf attr Is AssemblyCompanyAttribute Then
' Convert the attribute to access its data.
Dim attrComp As AssemblyCompanyAttribute = _
CType(attr, AssemblyCompanyAttribute)
Console.WriteLine("Assembly company is {0}.", _
attrComp.Company)
End If
Next
End Sub
End Module
' The example displays the following output:
' Assembly company is Microsoft.
' Assembly description is "GetCustomAttributes() Demo".
' Assembly title is "CustAttrs1VB".
注解
注意
从 .NET Framework 版本 2.0 开始,如果属性以新的元数据格式存储,此方法将返回安全属性。 使用版本 2.0 或更高版本编译的程序集使用新格式。 使用早期版本的 .NET Framework 编译的动态程序集和程序集使用旧的 XML 格式。 请参阅 发出声明性安全属性。
适用于
GetCustomAttributes(Module, Type)
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
检索应用于模块的自定义属性的数组。 参数指定要搜索的模块和自定义属性的类型。
public:
static cli::array <Attribute ^> ^ GetCustomAttributes(System::Reflection::Module ^ element, Type ^ attributeType);public static Attribute[] GetCustomAttributes (System.Reflection.Module element, Type attributeType);static member GetCustomAttributes : System.Reflection.Module * Type -> Attribute[]Public Shared Function GetCustomAttributes (element As Module, attributeType As Type) As Attribute()参数
- attributeType
- Type
要搜索的自定义属性的类型或基类型。
返回
一个 Attribute 数组,其中包含应用于 element的 attributeType 类型的自定义属性;如果没有此类自定义属性,则为空数组。
例外
element 或 attributeTypenull。
attributeType 不派生自 Attribute。
示例
下面的代码示例演示如何使用 GetCustomAttributes,以 Module 作为参数。
using namespace System;
using namespace System::Reflection;
using namespace System::ComponentModel;
// Assign some attributes to the module.
// Set the module's CLSCompliant attribute to false
// The CLSCompliant attribute is applicable for /target:module.
[module:Description("A sample description")];
[module:CLSCompliant(false)];
namespace CustAttrs2CS
{
ref class DemoClass
{
public:
static void Main()
{
Type^ clsType = DemoClass::typeid;
// Get the Module type to access its metadata.
Module^ module = clsType->Module;
// Iterate through all the attributes for the module.
System::Collections::IEnumerator^ myEnum1 = Attribute::GetCustomAttributes( module )->GetEnumerator();
while ( myEnum1->MoveNext() )
{
Attribute^ attr = safe_cast<Attribute^>(myEnum1->Current);
// Check for the Description attribute.
if ( attr->GetType() == DescriptionAttribute::typeid )
Console::WriteLine( "Module {0} has the description \"{1}\".", module->Name, (dynamic_cast<DescriptionAttribute^>(attr))->Description );
// Check for the CLSCompliant attribute.
else
// Check for the CLSCompliant attribute.
if ( attr->GetType() == CLSCompliantAttribute::typeid )
Console::WriteLine( "Module {0} {1} CLSCompliant.", module->Name, (dynamic_cast<CLSCompliantAttribute^>(attr))->IsCompliant ? (String^)"is" : "is not" );
}
}
};
}
/*
* Output:
* Module CustAttrs2CS.exe is not CLSCompliant.
* Module CustAttrs2CS.exe has the description "A sample description".
*/
using System;
using System.Reflection;
using System.ComponentModel;
// Assign some attributes to the module.
[module:Description("A sample description")]
// Set the module's CLSCompliant attribute to false
// The CLSCompliant attribute is applicable for /target:module.
[module:CLSCompliant(false)]
namespace CustAttrs2CS {
class DemoClass {
static void Main(string[] args) {
Type clsType = typeof(DemoClass);
// Get the Module type to access its metadata.
Module module = clsType.Module;
// Iterate through all the attributes for the module.
foreach(Attribute attr in Attribute.GetCustomAttributes(module)) {
// Check for the Description attribute.
if (attr.GetType() == typeof(DescriptionAttribute))
Console.WriteLine("Module {0} has the description " +
"\"{1}\".", module.Name,
((DescriptionAttribute)attr).Description);
// Check for the CLSCompliant attribute.
else if (attr.GetType() == typeof(CLSCompliantAttribute))
Console.WriteLine("Module {0} {1} CLSCompliant.",
module.Name,
((CLSCompliantAttribute)attr).IsCompliant ?
"is" : "is not");
}
}
}
}
/*
* Output:
* Module CustAttrs2CS.exe is not CLSCompliant.
* Module CustAttrs2CS.exe has the description "A sample description".
*/
open System
open System.ComponentModel
// Assign some attributes to the module.
[<``module``: Description "A sample description">]
// Set the module's CLSCompliant attribute to false
// The CLSCompliant attribute is applicable for /target:module.
[<``module``: CLSCompliant false>]
do ()
type DemoClass = class end
// Get the Module type to access its metadata.
let ilmodule = typeof<DemoClass>.Module
// Iterate through all the attributes for the module.
for attr in Attribute.GetCustomAttributes ilmodule do
match attr with
// Check for the Description attribute.
| :? DescriptionAttribute as attr ->
printfn $"Module {ilmodule.Name} has the description \"{attr.Description}\"."
// Check for the CLSCompliant attribute.
| :? CLSCompliantAttribute as attr ->
printfn $"""Module {ilmodule.Name} {if attr.IsCompliant then "is" else "is not"} CLSCompliant."""
| _ -> ()
// Output:
// Module CustAttrs2CS.exe is not CLSCompliant.
// Module CustAttrs2CS.exe has the description "A sample description".
Imports System.Reflection
Imports System.ComponentModel
' Give the Module some attributes.
<Module: Description("A sample description")>
' Make the CLSCompliant attribute False.
' The CLSCompliant attribute is applicable for /target:module.
<Module: CLSCompliant(False)>
Module DemoModule
Sub Main()
' Get the Module type to access its metadata.
Dim modType As Reflection.Module = GetType(DemoModule).Module
Dim attr As Attribute
' Iterate through all the attributes for the module.
For Each attr In Attribute.GetCustomAttributes(modType)
' Check for the Description attribute.
If TypeOf attr Is DescriptionAttribute Then
' Convert the attribute to access its data.
Dim descAttr As DescriptionAttribute = _
CType(attr, DescriptionAttribute)
Console.WriteLine("Module {0} has the description ""{1}"".", _
modType.Name, descAttr.Description)
' Check for the CLSCompliant attribute.
ElseIf TypeOf attr Is CLSCompliantAttribute Then
' Convert the attribute to access its data.
Dim CLSCompAttr As CLSCompliantAttribute = _
CType(attr, CLSCompliantAttribute)
Dim strCompliant As String
If CLSCompAttr.IsCompliant Then
strCompliant = "is"
Else
strCompliant = "is not"
End If
Console.WriteLine("Module {0} {1} CLSCompliant.", _
modType.Name, strCompliant)
End If
Next
End Sub
End Module
' Output:
' Module CustAttrs2VB.exe has the description "A sample description".
' Module CustAttrs2VB.exe is not CLSCompliant.
适用于
GetCustomAttributes(ParameterInfo, Type)
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
检索应用于方法参数的自定义特性的数组。 参数指定要搜索的方法参数和自定义属性的类型。
public:
static cli::array <Attribute ^> ^ GetCustomAttributes(System::Reflection::ParameterInfo ^ element, Type ^ attributeType);public static Attribute[] GetCustomAttributes (System.Reflection.ParameterInfo element, Type attributeType);static member GetCustomAttributes : System.Reflection.ParameterInfo * Type -> Attribute[]Public Shared Function GetCustomAttributes (element As ParameterInfo, attributeType As Type) As Attribute()参数
- element
- ParameterInfo
一个派生自 ParameterInfo 类的对象,该类描述类的成员的参数。
- attributeType
- Type
要搜索的自定义属性的类型或基类型。
返回
一个 Attribute 数组,其中包含应用于 element的 attributeType 类型的自定义属性;如果没有此类自定义属性,则为空数组。
例外
element 或 attributeTypenull。
attributeType 不派生自 Attribute。
无法加载自定义属性类型。
示例
下面的代码示例演示如何使用 GetCustomAttributes,以 ParameterInfo 作为参数。
using namespace System;
using namespace System::Reflection;
using namespace System::ComponentModel;
namespace CustAttrs5CS
{
public ref class AClass
{
public:
void ParamArrayAndDesc(
// Add ParamArray and Description attributes.
[Description("This argument is a ParamArray")]
array<Int32>^args )
{}
};
ref class DemoClass
{
public:
static void Main()
{
// Get the Class type to access its metadata.
Type^ clsType = AClass::typeid;
// Get the type information for the method.
MethodInfo^ mInfo = clsType->GetMethod( "ParamArrayAndDesc" );
if ( mInfo != nullptr )
{
// Get the parameter information.
array<ParameterInfo^>^pInfo = mInfo->GetParameters();
if ( pInfo != nullptr )
{
// Iterate through all the attributes for the parameter.
System::Collections::IEnumerator^ myEnum4 = Attribute::GetCustomAttributes( pInfo[ 0 ] )->GetEnumerator();
while ( myEnum4->MoveNext() )
{
Attribute^ attr = safe_cast<Attribute^>(myEnum4->Current);
// Check for the ParamArray attribute.
if ( attr->GetType() == ParamArrayAttribute::typeid )
Console::WriteLine( "Parameter {0} for method {1} "
"has the ParamArray attribute.", pInfo[ 0 ]->Name, mInfo->Name );
// Check for the Description attribute.
else
// Check for the Description attribute.
if ( attr->GetType() == DescriptionAttribute::typeid )
{
Console::WriteLine( "Parameter {0} for method {1} "
"has a description attribute.", pInfo[ 0 ]->Name, mInfo->Name );
Console::WriteLine( "The description is: \"{0}\"", (dynamic_cast<DescriptionAttribute^>(attr))->Description );
}
}
}
}
}
};
}
/*
* Output:
* Parameter args for method ParamArrayAndDesc has the ParamArray attribute.
* Parameter args for method ParamArrayAndDesc has a description attribute.
* The description is: "This argument is a ParamArray"
*/
using System;
using System.Reflection;
using System.ComponentModel;
namespace CustAttrs5CS {
public class AClass {
public void ParamArrayAndDesc(
// Add ParamArray (with the keyword) and Description attributes.
[Description("This argument is a ParamArray")]
params int[] args)
{}
}
class DemoClass {
static void Main(string[] args) {
// Get the Class type to access its metadata.
Type clsType = typeof(AClass);
// Get the type information for the method.
MethodInfo mInfo = clsType.GetMethod("ParamArrayAndDesc");
if (mInfo != null) {
// Get the parameter information.
ParameterInfo[] pInfo = mInfo.GetParameters();
if (pInfo != null) {
// Iterate through all the attributes for the parameter.
foreach(Attribute attr in
Attribute.GetCustomAttributes(pInfo[0])) {
// Check for the ParamArray attribute.
if (attr.GetType() == typeof(ParamArrayAttribute))
Console.WriteLine("Parameter {0} for method {1} " +
"has the ParamArray attribute.",
pInfo[0].Name, mInfo.Name);
// Check for the Description attribute.
else if (attr.GetType() ==
typeof(DescriptionAttribute)) {
Console.WriteLine("Parameter {0} for method {1} " +
"has a description attribute.",
pInfo[0].Name, mInfo.Name);
Console.WriteLine("The description is: \"{0}\"",
((DescriptionAttribute)attr).Description);
}
}
}
}
}
}
}
/*
* Output:
* Parameter args for method ParamArrayAndDesc has the ParamArray attribute.
* Parameter args for method ParamArrayAndDesc has a description attribute.
* The description is: "This argument is a ParamArray"
*/
open System
open System.Reflection
open System.ComponentModel
type AClass() =
member _.ParamArrayAndDesc(
// Add ParamArray and Description attributes.
[<Description "This argument is a ParamArray">]
[<ParamArray>]
args: int[]) = ()
// Get the Class type to access its metadata.
let clsType = typeof<AClass>
// Get the type information for the method.
let mInfo = clsType.GetMethod "ParamArrayAndDesc"
if mInfo <> null then
// Get the parameter information.
let pInfo = mInfo.GetParameters()
if pInfo <> null then
// Iterate through all the attributes for the parameter.
for attr in Attribute.GetCustomAttributes pInfo[0] do
match attr with
// Check for the ParamArray attribute.
| :? ParamArrayAttribute ->
printfn $"Parameter {pInfo[0].Name} for method {mInfo.Name} has the ParamArray attribute."
// Check for the Description attribute.
| :? DescriptionAttribute as attr ->
printfn $"Parameter {pInfo[0].Name} for method {mInfo.Name} has a description attribute."
printfn $"The description is: \"{attr.Description}\""
| _ -> ()
// Output:
// Parameter args for method ParamArrayAndDesc has a description attribute.
// The description is: "This argument is a ParamArray"
// Parameter args for method ParamArrayAndDesc has the ParamArray attribute.
Imports System.Reflection
Imports System.ComponentModel
Module DemoModule
Public Class AClass
' Add Description and ParamArray (with the keyword) attributes.
Public Sub ParamArrayAndDesc( _
<Description("This argument is a ParamArray")> _
ByVal ParamArray args() As Integer)
End Sub
End Class
Sub Main()
' Get the Class type to access its metadata.
Dim clsType As Type = GetType(AClass)
' Get the type information for the method.
Dim mInfo As MethodInfo = clsType.GetMethod("ParamArrayAndDesc")
' Get the Parameter information for the method.
Dim pInfo() As ParameterInfo = mInfo.GetParameters()
Dim attr As Attribute
' Iterate through each attribute of the parameter.
For Each attr In Attribute.GetCustomAttributes(pInfo(0))
' Check for the ParamArray attribute.
If TypeOf attr Is ParamArrayAttribute Then
' Convert the attribute to access its data.
Dim paAttr As ParamArrayAttribute = _
CType(attr, ParamArrayAttribute)
Console.WriteLine("Parameter {0} for method {1} has the " + _
"ParamArray attribute.", pInfo(0).Name, mInfo.Name)
' Check for the Description attribute.
ElseIf TypeOf attr Is DescriptionAttribute Then
' Convert the attribute to access its data.
Dim descAttr As DescriptionAttribute = _
CType(attr, DescriptionAttribute)
Console.WriteLine("Parameter {0} for method {1} has a description " + _
"attribute. The description is:", pInfo(0).Name, mInfo.Name)
Console.WriteLine(descAttr.Description)
End If
Next
End Sub
End Module
' Output:
' Parameter args for method ParamArrayAndDesc has the ParamArray attribute.
' Parameter args for method ParamArrayAndDesc has a description attribute. The description is:
' This argument is a ParamArray
注解
如果 element 表示派生类型方法中的参数,则返回值包括应用于重写基方法中相同参数的可继承自定义属性。
适用于
GetCustomAttributes(MemberInfo, Boolean)
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
检索应用于类型成员的自定义属性的数组。 参数指定要搜索的成员、要搜索的自定义属性的类型以及是否搜索成员的上级。
public:
static cli::array <Attribute ^> ^ GetCustomAttributes(System::Reflection::MemberInfo ^ element, bool inherit);public static Attribute[] GetCustomAttributes (System.Reflection.MemberInfo element, bool inherit);static member GetCustomAttributes : System.Reflection.MemberInfo * bool -> Attribute[]Public Shared Function GetCustomAttributes (element As MemberInfo, inherit As Boolean) As Attribute()参数
- element
- MemberInfo
一个派生自 MemberInfo 类的对象,该类描述类的构造函数、事件、字段、方法或属性成员。
- inherit
- Boolean
如果 true,则指定还搜索 element 的上级以获取自定义属性。
返回
一个 Attribute 数组,其中包含应用于 element的自定义属性;如果没有此类自定义属性,则为空数组。
例外
element
null。
element 不是构造函数、方法、属性、事件、类型或字段。
无法加载自定义属性类型。
示例
下面的代码示例演示如何使用 GetCustomAttributes,以 MemberInfo 作为参数。
using namespace System;
using namespace System::Reflection;
using namespace System::Security;
using namespace System::Runtime::InteropServices;
namespace CustAttrs4CS
{
// Create a class for Win32 imported unmanaged functions.
public ref class Win32
{
public:
[DllImport("user32.dll", CharSet = CharSet::Unicode)]
static int MessageBox( int hWnd, String^ text, String^ caption, UInt32 type );
};
public ref class AClass
{
public:
// Add some attributes to the Win32CallMethod.
[Obsolete("This method is obsolete. Use managed MsgBox instead.")]
void Win32CallMethod()
{
Win32::MessageBox( 0, "This is an unmanaged call.", "Be Careful!", 0 );
}
};
ref class DemoClass
{
public:
static void Main()
{
// Get the Class type to access its metadata.
Type^ clsType = AClass::typeid;
// Get the type information for the Win32CallMethod.
MethodInfo^ mInfo = clsType->GetMethod( "Win32CallMethod" );
if ( mInfo != nullptr )
{
// Iterate through all the attributes for the method.
System::Collections::IEnumerator^ myEnum3 = Attribute::GetCustomAttributes( mInfo )->GetEnumerator();
while ( myEnum3->MoveNext() )
{
Attribute^ attr = safe_cast<Attribute^>(myEnum3->Current);
// Check for the Obsolete attribute.
if ( attr->GetType() == ObsoleteAttribute::typeid )
{
Console::WriteLine( "Method {0} is obsolete. "
"The message is:", mInfo->Name );
Console::WriteLine( (dynamic_cast<ObsoleteAttribute^>(attr))->Message );
}
// Check for the SuppressUnmanagedCodeSecurity attribute.
else
// Check for the SuppressUnmanagedCodeSecurity attribute.
if ( attr->GetType() == SuppressUnmanagedCodeSecurityAttribute::typeid )
{
Console::WriteLine( "This method calls unmanaged code "
"with no security check." );
Console::WriteLine( "Please do not use unless absolutely necessary." );
AClass^ myCls = gcnew AClass;
myCls->Win32CallMethod();
}
}
}
}
};
}
/*
* Output:
* Method Win32CallMethod is obsolete. The message is:
* This method is obsolete. Use managed MsgBox instead.
* This method calls unmanaged code with no security check.
* Please do not use unless absolutely necessary.
*/
using System;
using System.Reflection;
using System.Security;
using System.Runtime.InteropServices;
namespace CustAttrs4CS
{
// Define an enumeration of Win32 unmanaged types
public enum UnmanagedType
{
User,
GDI,
Kernel,
Shell,
Networking,
Multimedia
}
// Define the Unmanaged attribute.
public class UnmanagedAttribute : Attribute
{
// Storage for the UnmanagedType value.
protected UnmanagedType thisType;
// Set the unmanaged type in the constructor.
public UnmanagedAttribute(UnmanagedType type)
{
thisType = type;
}
// Define a property to get and set the UnmanagedType value.
public UnmanagedType Win32Type
{
get { return thisType; }
set { thisType = Win32Type; }
}
}
// Create a class for an imported Win32 unmanaged function.
public class Win32 {
[DllImport("user32.dll", CharSet = CharSet.Unicode)]
public static extern int MessageBox(int hWnd, String text,
String caption, uint type);
}
public class AClass {
// Add some attributes to Win32CallMethod.
[Obsolete("This method is obsolete. Use managed MsgBox instead.")]
[Unmanaged(UnmanagedType.User)]
public void Win32CallMethod()
{
Win32.MessageBox(0, "This is an unmanaged call.", "Caution!", 0);
}
}
class DemoClass {
static void Main(string[] args)
{
// Get the AClass type to access its metadata.
Type clsType = typeof(AClass);
// Get the type information for Win32CallMethod.
MethodInfo mInfo = clsType.GetMethod("Win32CallMethod");
if (mInfo != null)
{
// Iterate through all the attributes of the method.
foreach(Attribute attr in
Attribute.GetCustomAttributes(mInfo)) {
// Check for the Obsolete attribute.
if (attr.GetType() == typeof(ObsoleteAttribute))
{
Console.WriteLine("Method {0} is obsolete. " +
"The message is:",
mInfo.Name);
Console.WriteLine(" \"{0}\"",
((ObsoleteAttribute)attr).Message);
}
// Check for the Unmanaged attribute.
else if (attr.GetType() == typeof(UnmanagedAttribute))
{
Console.WriteLine(
"This method calls unmanaged code.");
Console.WriteLine(
String.Format("The Unmanaged attribute type is {0}.",
((UnmanagedAttribute)attr).Win32Type));
AClass myCls = new AClass();
myCls.Win32CallMethod();
}
}
}
}
}
}
/*
This code example produces the following results.
First, the compilation yields the warning, "... This method is
obsolete. Use managed MsgBox instead."
Second, execution yields a message box with a title of "Caution!"
and message text of "This is an unmanaged call."
Third, the following text is displayed in the console window:
Method Win32CallMethod is obsolete. The message is:
"This method is obsolete. Use managed MsgBox instead."
This method calls unmanaged code.
The Unmanaged attribute type is User.
*/
open System
open System.Runtime.InteropServices
// Define an enumeration of Win32 unmanaged types
type UnmanagedType =
| User = 0
| GDI = 1
| Kernel = 2
| Shell = 3
| Networking = 4
| Multimedia = 5
// Define the Unmanaged attribute.
type UnmanagedAttribute(unmanagedType) =
inherit Attribute()
// Define a property to get and set the UnmanagedType value.
member val Win32Type = unmanagedType with get, set
// Create a module for an imported Win32 unmanaged function.
module Win32 =
[<DllImport("user32.dll", CharSet = CharSet.Unicode)>]
extern int MessageBox(IntPtr hWnd, String text, String caption, uint ``type``)
type AClass() =
// Add some attributes to Win32CallMethod.
[<Obsolete "This method is obsolete. Use managed MsgBox instead.">]
[<Unmanaged(UnmanagedType.User)>]
member _.Win32CallMethod () =
Win32.MessageBox(0, "This is an unmanaged call.", "Caution!", 0u)
// Get the AClass type to access its metadata.
let clsType = typeof<AClass>
// Get the type information for Win32CallMethod.
let mInfo = clsType.GetMethod "Win32CallMethod"
if mInfo <> null then
// Iterate through all the attributes of the method.
for attr in Attribute.GetCustomAttributes mInfo do
match attr with
// Check for the Obsolete attribute.
| :? ObsoleteAttribute as attr ->
printfn $"Method {mInfo.Name} is obsolete. The message is:"
printfn $" \"{attr.Message}\""
// Check for the Unmanaged attribute.
| :? UnmanagedAttribute as attr ->
printfn "This method calls unmanaged code."
printfn $"The Unmanaged attribute type is {attr.Win32Type}."
let myCls = AClass()
myCls.Win32CallMethod() |> ignore
| _ -> ()
// This code example produces the following results.
//
// First, the compilation yields the warning, "... This method is
// obsolete. Use managed MsgBox instead."
// Second, execution yields a message box with a title of "Caution!"
// and message text of "This is an unmanaged call."
// Third, the following text is displayed in the console window:
// Method Win32CallMethod is obsolete. The message is:
// "This method is obsolete. Use managed MsgBox instead."
// This method calls unmanaged code.
// The Unmanaged attribute type is User.
Imports System.Reflection
Imports System.Security
Imports System.Runtime.InteropServices
' Define an enumeration of Win32 unmanaged types
Public Enum UnmanagedType
User
GDI
Kernel
Shell
Networking
Multimedia
End Enum 'UnmanagedType
' Define the Unmanaged attribute.
Public Class UnmanagedAttribute
Inherits Attribute
' Storage for the UnmanagedType value.
Protected thisType As UnmanagedType
' Set the unmanaged type in the constructor.
Public Sub New(ByVal type As UnmanagedType)
thisType = type
End Sub
' Define a property to get and set the UnmanagedType value.
Public Property Win32Type() As UnmanagedType
Get
Return thisType
End Get
Set
thisType = Win32Type
End Set
End Property
End Class
' Create a class for an imported Win32 unmanaged function.
Public Class Win32
<DllImport("user32.dll", CharSet:=CharSet.Unicode)> _
Public Shared Function MessageBox(ByVal hWnd As Integer, _
ByVal Text As String, _
ByVal caption As String, _
ByVal type As Integer) As Integer
End Function 'MessageBox
End Class
Public Class AClass
' Add some attributes to Win32CallMethod.
<Obsolete("This method is obsolete. Use managed MsgBox instead."), _
Unmanaged(UnmanagedType.User)> _
Public Sub Win32CallMethod()
Win32.MessageBox(0, "This is an unmanaged call.", "Caution!", 0)
End Sub
End Class
Class DemoClass
Shared Sub Main(ByVal args() As String)
' Get the AClass type to access its metadata.
Dim clsType As Type = GetType(AClass)
' Get the type information for Win32CallMethod.
Dim mInfo As MethodInfo = clsType.GetMethod("Win32CallMethod")
If Not (mInfo Is Nothing) Then
' Iterate through all the attributes of the method.
Dim attr As Attribute
For Each attr In Attribute.GetCustomAttributes(mInfo)
' Check for the Obsolete attribute.
If attr.GetType().Equals(GetType(ObsoleteAttribute)) Then
Console.WriteLine("Method {0} is obsolete. The message is:", mInfo.Name)
Console.WriteLine(" ""{0}""", CType(attr, ObsoleteAttribute).Message)
' Check for the Unmanaged attribute.
ElseIf attr.GetType().Equals(GetType(UnmanagedAttribute)) Then
Console.WriteLine("This method calls unmanaged code.")
Console.WriteLine( _
String.Format("The Unmanaged attribute type is {0}.", _
CType(attr, UnmanagedAttribute).Win32Type))
Dim myCls As New AClass()
myCls.Win32CallMethod()
End If
Next attr
End If
End Sub
End Class
'
'This code example produces the following results.
'
'First, the compilation yields the warning, "... This method is
'obsolete. Use managed MsgBox instead."
'Second, execution yields a message box with a title of "Caution!"
'and message text of "This is an unmanaged call."
'Third, the following text is displayed in the console window:
'
'Method Win32CallMethod is obsolete. The message is:
' "This method is obsolete. Use managed MsgBox instead."
'This method calls unmanaged code.
'The Unmanaged attribute type is User.
'
注解
如果 inherittrue,则返回值包含 element 的上级自定义属性。
注意
从 .NET Framework 版本 2.0 开始,如果属性以新的元数据格式存储,此方法将返回方法、构造函数和类型的安全属性。 使用版本 2.0 或更高版本编译的程序集使用新格式。 使用早期版本的 .NET Framework 编译的动态程序集和程序集使用旧的 XML 格式。 请参阅 发出声明性安全属性。
适用于
GetCustomAttributes(Assembly, Type)
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
检索应用于程序集的自定义特性的数组。 参数指定要搜索的程序集和自定义属性的类型。
public:
static cli::array <Attribute ^> ^ GetCustomAttributes(System::Reflection::Assembly ^ element, Type ^ attributeType);public static Attribute[] GetCustomAttributes (System.Reflection.Assembly element, Type attributeType);static member GetCustomAttributes : System.Reflection.Assembly * Type -> Attribute[]Public Shared Function GetCustomAttributes (element As Assembly, attributeType As Type) As Attribute()参数
- attributeType
- Type
要搜索的自定义属性的类型或基类型。
返回
一个 Attribute 数组,其中包含应用于 element的 attributeType 类型的自定义属性;如果没有此类自定义属性,则为空数组。
例外
element 或 attributeTypenull。
attributeType 不派生自 Attribute。
示例
下面的代码示例演示如何使用 GetCustomAttributes,以 Assembly 作为参数。
using namespace System;
using namespace System::Reflection;
[assembly:AssemblyTitle("CustAttrs1CPP")];
[assembly:AssemblyDescription("GetCustomAttributes() Demo")];
[assembly:AssemblyCompany("Microsoft")];
ref class Example
{};
static void main()
{
Type^ clsType = Example::typeid;
// Get the Assembly type to access its metadata.
Assembly^ assy = clsType->Assembly;
// Iterate through the attributes for the assembly.
System::Collections::IEnumerator^ myEnum = Attribute::GetCustomAttributes( assy )->GetEnumerator();
while ( myEnum->MoveNext() )
{
Attribute^ attr = safe_cast<Attribute^>(myEnum->Current);
// Check for the AssemblyTitle attribute.
if ( attr->GetType() == AssemblyTitleAttribute::typeid )
Console::WriteLine( "Assembly title is \"{0}\".", (dynamic_cast<AssemblyTitleAttribute^>(attr))->Title );
// Check for the AssemblyDescription attribute.
else
// Check for the AssemblyDescription attribute.
if ( attr->GetType() == AssemblyDescriptionAttribute::typeid )
Console::WriteLine( "Assembly description is \"{0}\".", (dynamic_cast<AssemblyDescriptionAttribute^>(attr))->Description );
// Check for the AssemblyCompany attribute.
else if ( attr->GetType() == AssemblyCompanyAttribute::typeid )
Console::WriteLine( "Assembly company is {0}.", (dynamic_cast<AssemblyCompanyAttribute^>(attr))->Company );
}
}
// The example displays the following output:
// Assembly description is "GetCustomAttributes() Demo".
// Assembly company is Microsoft.
// Assembly title is "CustAttrs1CPP".
using System;
using System.Reflection;
[assembly: AssemblyTitle("CustAttrs1CS")]
[assembly: AssemblyDescription("GetCustomAttributes() Demo")]
[assembly: AssemblyCompany("Microsoft")]
class Example {
static void Main() {
// Get the Assembly object to access its metadata.
Assembly assy = typeof(Example).Assembly;
// Iterate through the attributes for the assembly.
foreach(Attribute attr in Attribute.GetCustomAttributes(assy)) {
// Check for the AssemblyTitle attribute.
if (attr.GetType() == typeof(AssemblyTitleAttribute))
Console.WriteLine("Assembly title is \"{0}\".",
((AssemblyTitleAttribute)attr).Title);
// Check for the AssemblyDescription attribute.
else if (attr.GetType() ==
typeof(AssemblyDescriptionAttribute))
Console.WriteLine("Assembly description is \"{0}\".",
((AssemblyDescriptionAttribute)attr).Description);
// Check for the AssemblyCompany attribute.
else if (attr.GetType() == typeof(AssemblyCompanyAttribute))
Console.WriteLine("Assembly company is {0}.",
((AssemblyCompanyAttribute)attr).Company);
}
}
}
// The example displays the following output:
// Assembly title is "CustAttrs1CS".
// Assembly description is "GetCustomAttributes() Demo".
// Assembly company is Microsoft.
open System
open System.Reflection
[<assembly: AssemblyTitle "CustAttrs1CS">]
[<assembly: AssemblyDescription "GetCustomAttributes() Demo">]
[<assembly: AssemblyCompany"Microsoft">]
do ()
type Example = class end
// Get the Assembly object to access its metadata.
let assembly = typeof<Example>.Assembly
// Iterate through the attributes for the assembly.
for attr in Attribute.GetCustomAttributes assembly do
match attr with
// Check for the AssemblyTitle attribute.
| :? AssemblyTitleAttribute as attr ->
printfn $"Assembly title is \"{attr.Title}\"."
// Check for the AssemblyDescription attribute.
| :? AssemblyDescriptionAttribute as attr ->
printfn $"Assembly description is \"{attr.Description}\"."
// Check for the AssemblyCompany attribute.
| :? AssemblyCompanyAttribute as attr ->
printfn $"Assembly company is {attr.Company}."
| _ -> ()
// The example displays the following output:
// Assembly title is "CustAttrs1CS".
// Assembly description is "GetCustomAttributes() Demo".
// Assembly company is Microsoft.
Imports System.Reflection
<Assembly: AssemblyTitle("CustAttrs1VB")>
<Assembly: AssemblyDescription("GetCustomAttributes() Demo")>
<Assembly: AssemblyCompany("Microsoft")>
Module Example
Sub Main()
' Get the Assembly type to access its metadata.
Dim assy As Reflection.Assembly = GetType(Example).Assembly
' Iterate through all the attributes for the assembly.
For Each attr As Attribute In Attribute.GetCustomAttributes(assy)
' Check for the AssemblyTitle attribute.
If TypeOf attr Is AssemblyTitleAttribute Then
' Convert the attribute to access its data.
Dim attrTitle As AssemblyTitleAttribute = _
CType(attr, AssemblyTitleAttribute)
Console.WriteLine("Assembly title is ""{0}"".", _
attrTitle.Title)
' Check for the AssemblyDescription attribute.
ElseIf TypeOf attr Is AssemblyDescriptionAttribute Then
' Convert the attribute to access its data.
Dim attrDesc As AssemblyDescriptionAttribute = _
CType(attr, AssemblyDescriptionAttribute)
Console.WriteLine("Assembly description is ""{0}"".", _
attrDesc.Description)
' Check for the AssemblyCompany attribute.
ElseIf TypeOf attr Is AssemblyCompanyAttribute Then
' Convert the attribute to access its data.
Dim attrComp As AssemblyCompanyAttribute = _
CType(attr, AssemblyCompanyAttribute)
Console.WriteLine("Assembly company is {0}.", _
attrComp.Company)
End If
Next
End Sub
End Module
' The example displays the following output:
' Assembly company is Microsoft.
' Assembly description is "GetCustomAttributes() Demo".
' Assembly title is "CustAttrs1VB".
注解
注意
从 .NET Framework 版本 2.0 开始,如果属性以新的元数据格式存储,此方法将返回安全属性。 使用版本 2.0 或更高版本编译的程序集使用新格式。 使用早期版本的 .NET Framework 编译的动态程序集和程序集使用旧的 XML 格式。 请参阅 发出声明性安全属性。
适用于
GetCustomAttributes(Assembly, Boolean)
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
检索应用于程序集的自定义特性的数组。 参数指定程序集和忽略的搜索选项。
public:
static cli::array <Attribute ^> ^ GetCustomAttributes(System::Reflection::Assembly ^ element, bool inherit);public static Attribute[] GetCustomAttributes (System.Reflection.Assembly element, bool inherit);static member GetCustomAttributes : System.Reflection.Assembly * bool -> Attribute[]Public Shared Function GetCustomAttributes (element As Assembly, inherit As Boolean) As Attribute()参数
- inherit
- Boolean
忽略此参数,不会影响此方法的操作。
返回
一个 Attribute 数组,其中包含应用于 element的自定义属性;如果没有此类自定义属性,则为空数组。
例外
element
null。
示例
下面的代码示例演示如何使用 GetCustomAttributes,以 Assembly 作为参数。
using namespace System;
using namespace System::Reflection;
[assembly:AssemblyTitle("CustAttrs1CPP")];
[assembly:AssemblyDescription("GetCustomAttributes() Demo")];
[assembly:AssemblyCompany("Microsoft")];
ref class Example
{};
static void main()
{
Type^ clsType = Example::typeid;
// Get the Assembly type to access its metadata.
Assembly^ assy = clsType->Assembly;
// Iterate through the attributes for the assembly.
System::Collections::IEnumerator^ myEnum = Attribute::GetCustomAttributes( assy )->GetEnumerator();
while ( myEnum->MoveNext() )
{
Attribute^ attr = safe_cast<Attribute^>(myEnum->Current);
// Check for the AssemblyTitle attribute.
if ( attr->GetType() == AssemblyTitleAttribute::typeid )
Console::WriteLine( "Assembly title is \"{0}\".", (dynamic_cast<AssemblyTitleAttribute^>(attr))->Title );
// Check for the AssemblyDescription attribute.
else
// Check for the AssemblyDescription attribute.
if ( attr->GetType() == AssemblyDescriptionAttribute::typeid )
Console::WriteLine( "Assembly description is \"{0}\".", (dynamic_cast<AssemblyDescriptionAttribute^>(attr))->Description );
// Check for the AssemblyCompany attribute.
else if ( attr->GetType() == AssemblyCompanyAttribute::typeid )
Console::WriteLine( "Assembly company is {0}.", (dynamic_cast<AssemblyCompanyAttribute^>(attr))->Company );
}
}
// The example displays the following output:
// Assembly description is "GetCustomAttributes() Demo".
// Assembly company is Microsoft.
// Assembly title is "CustAttrs1CPP".
using System;
using System.Reflection;
[assembly: AssemblyTitle("CustAttrs1CS")]
[assembly: AssemblyDescription("GetCustomAttributes() Demo")]
[assembly: AssemblyCompany("Microsoft")]
class Example {
static void Main() {
// Get the Assembly object to access its metadata.
Assembly assy = typeof(Example).Assembly;
// Iterate through the attributes for the assembly.
foreach(Attribute attr in Attribute.GetCustomAttributes(assy)) {
// Check for the AssemblyTitle attribute.
if (attr.GetType() == typeof(AssemblyTitleAttribute))
Console.WriteLine("Assembly title is \"{0}\".",
((AssemblyTitleAttribute)attr).Title);
// Check for the AssemblyDescription attribute.
else if (attr.GetType() ==
typeof(AssemblyDescriptionAttribute))
Console.WriteLine("Assembly description is \"{0}\".",
((AssemblyDescriptionAttribute)attr).Description);
// Check for the AssemblyCompany attribute.
else if (attr.GetType() == typeof(AssemblyCompanyAttribute))
Console.WriteLine("Assembly company is {0}.",
((AssemblyCompanyAttribute)attr).Company);
}
}
}
// The example displays the following output:
// Assembly title is "CustAttrs1CS".
// Assembly description is "GetCustomAttributes() Demo".
// Assembly company is Microsoft.
open System
open System.Reflection
[<assembly: AssemblyTitle "CustAttrs1CS">]
[<assembly: AssemblyDescription "GetCustomAttributes() Demo">]
[<assembly: AssemblyCompany"Microsoft">]
do ()
type Example = class end
// Get the Assembly object to access its metadata.
let assembly = typeof<Example>.Assembly
// Iterate through the attributes for the assembly.
for attr in Attribute.GetCustomAttributes assembly do
match attr with
// Check for the AssemblyTitle attribute.
| :? AssemblyTitleAttribute as attr ->
printfn $"Assembly title is \"{attr.Title}\"."
// Check for the AssemblyDescription attribute.
| :? AssemblyDescriptionAttribute as attr ->
printfn $"Assembly description is \"{attr.Description}\"."
// Check for the AssemblyCompany attribute.
| :? AssemblyCompanyAttribute as attr ->
printfn $"Assembly company is {attr.Company}."
| _ -> ()
// The example displays the following output:
// Assembly title is "CustAttrs1CS".
// Assembly description is "GetCustomAttributes() Demo".
// Assembly company is Microsoft.
Imports System.Reflection
<Assembly: AssemblyTitle("CustAttrs1VB")>
<Assembly: AssemblyDescription("GetCustomAttributes() Demo")>
<Assembly: AssemblyCompany("Microsoft")>
Module Example
Sub Main()
' Get the Assembly type to access its metadata.
Dim assy As Reflection.Assembly = GetType(Example).Assembly
' Iterate through all the attributes for the assembly.
For Each attr As Attribute In Attribute.GetCustomAttributes(assy)
' Check for the AssemblyTitle attribute.
If TypeOf attr Is AssemblyTitleAttribute Then
' Convert the attribute to access its data.
Dim attrTitle As AssemblyTitleAttribute = _
CType(attr, AssemblyTitleAttribute)
Console.WriteLine("Assembly title is ""{0}"".", _
attrTitle.Title)
' Check for the AssemblyDescription attribute.
ElseIf TypeOf attr Is AssemblyDescriptionAttribute Then
' Convert the attribute to access its data.
Dim attrDesc As AssemblyDescriptionAttribute = _
CType(attr, AssemblyDescriptionAttribute)
Console.WriteLine("Assembly description is ""{0}"".", _
attrDesc.Description)
' Check for the AssemblyCompany attribute.
ElseIf TypeOf attr Is AssemblyCompanyAttribute Then
' Convert the attribute to access its data.
Dim attrComp As AssemblyCompanyAttribute = _
CType(attr, AssemblyCompanyAttribute)
Console.WriteLine("Assembly company is {0}.", _
attrComp.Company)
End If
Next
End Sub
End Module
' The example displays the following output:
' Assembly company is Microsoft.
' Assembly description is "GetCustomAttributes() Demo".
' Assembly title is "CustAttrs1VB".
适用于
GetCustomAttributes(ParameterInfo)
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
检索应用于方法参数的自定义特性的数组。 参数指定方法参数。
public:
static cli::array <Attribute ^> ^ GetCustomAttributes(System::Reflection::ParameterInfo ^ element);public static Attribute[] GetCustomAttributes (System.Reflection.ParameterInfo element);static member GetCustomAttributes : System.Reflection.ParameterInfo -> Attribute[]Public Shared Function GetCustomAttributes (element As ParameterInfo) As Attribute()参数
- element
- ParameterInfo
一个派生自 ParameterInfo 类的对象,该类描述类的成员的参数。
返回
一个 Attribute 数组,其中包含应用于 element的自定义属性;如果没有此类自定义属性,则为空数组。
例外
element
null。
无法加载自定义属性类型。
示例
下面的代码示例演示如何使用 GetCustomAttributes,以 ParameterInfo 作为参数。
using namespace System;
using namespace System::Reflection;
using namespace System::ComponentModel;
namespace CustAttrs5CS
{
public ref class AClass
{
public:
void ParamArrayAndDesc(
// Add ParamArray and Description attributes.
[Description("This argument is a ParamArray")]
array<Int32>^args )
{}
};
ref class DemoClass
{
public:
static void Main()
{
// Get the Class type to access its metadata.
Type^ clsType = AClass::typeid;
// Get the type information for the method.
MethodInfo^ mInfo = clsType->GetMethod( "ParamArrayAndDesc" );
if ( mInfo != nullptr )
{
// Get the parameter information.
array<ParameterInfo^>^pInfo = mInfo->GetParameters();
if ( pInfo != nullptr )
{
// Iterate through all the attributes for the parameter.
System::Collections::IEnumerator^ myEnum4 = Attribute::GetCustomAttributes( pInfo[ 0 ] )->GetEnumerator();
while ( myEnum4->MoveNext() )
{
Attribute^ attr = safe_cast<Attribute^>(myEnum4->Current);
// Check for the ParamArray attribute.
if ( attr->GetType() == ParamArrayAttribute::typeid )
Console::WriteLine( "Parameter {0} for method {1} "
"has the ParamArray attribute.", pInfo[ 0 ]->Name, mInfo->Name );
// Check for the Description attribute.
else
// Check for the Description attribute.
if ( attr->GetType() == DescriptionAttribute::typeid )
{
Console::WriteLine( "Parameter {0} for method {1} "
"has a description attribute.", pInfo[ 0 ]->Name, mInfo->Name );
Console::WriteLine( "The description is: \"{0}\"", (dynamic_cast<DescriptionAttribute^>(attr))->Description );
}
}
}
}
}
};
}
/*
* Output:
* Parameter args for method ParamArrayAndDesc has the ParamArray attribute.
* Parameter args for method ParamArrayAndDesc has a description attribute.
* The description is: "This argument is a ParamArray"
*/
using System;
using System.Reflection;
using System.ComponentModel;
namespace CustAttrs5CS {
public class AClass {
public void ParamArrayAndDesc(
// Add ParamArray (with the keyword) and Description attributes.
[Description("This argument is a ParamArray")]
params int[] args)
{}
}
class DemoClass {
static void Main(string[] args) {
// Get the Class type to access its metadata.
Type clsType = typeof(AClass);
// Get the type information for the method.
MethodInfo mInfo = clsType.GetMethod("ParamArrayAndDesc");
if (mInfo != null) {
// Get the parameter information.
ParameterInfo[] pInfo = mInfo.GetParameters();
if (pInfo != null) {
// Iterate through all the attributes for the parameter.
foreach(Attribute attr in
Attribute.GetCustomAttributes(pInfo[0])) {
// Check for the ParamArray attribute.
if (attr.GetType() == typeof(ParamArrayAttribute))
Console.WriteLine("Parameter {0} for method {1} " +
"has the ParamArray attribute.",
pInfo[0].Name, mInfo.Name);
// Check for the Description attribute.
else if (attr.GetType() ==
typeof(DescriptionAttribute)) {
Console.WriteLine("Parameter {0} for method {1} " +
"has a description attribute.",
pInfo[0].Name, mInfo.Name);
Console.WriteLine("The description is: \"{0}\"",
((DescriptionAttribute)attr).Description);
}
}
}
}
}
}
}
/*
* Output:
* Parameter args for method ParamArrayAndDesc has the ParamArray attribute.
* Parameter args for method ParamArrayAndDesc has a description attribute.
* The description is: "This argument is a ParamArray"
*/
open System
open System.Reflection
open System.ComponentModel
type AClass() =
member _.ParamArrayAndDesc(
// Add ParamArray and Description attributes.
[<Description "This argument is a ParamArray">]
[<ParamArray>]
args: int[]) = ()
// Get the Class type to access its metadata.
let clsType = typeof<AClass>
// Get the type information for the method.
let mInfo = clsType.GetMethod "ParamArrayAndDesc"
if mInfo <> null then
// Get the parameter information.
let pInfo = mInfo.GetParameters()
if pInfo <> null then
// Iterate through all the attributes for the parameter.
for attr in Attribute.GetCustomAttributes pInfo[0] do
match attr with
// Check for the ParamArray attribute.
| :? ParamArrayAttribute ->
printfn $"Parameter {pInfo[0].Name} for method {mInfo.Name} has the ParamArray attribute."
// Check for the Description attribute.
| :? DescriptionAttribute as attr ->
printfn $"Parameter {pInfo[0].Name} for method {mInfo.Name} has a description attribute."
printfn $"The description is: \"{attr.Description}\""
| _ -> ()
// Output:
// Parameter args for method ParamArrayAndDesc has a description attribute.
// The description is: "This argument is a ParamArray"
// Parameter args for method ParamArrayAndDesc has the ParamArray attribute.
Imports System.Reflection
Imports System.ComponentModel
Module DemoModule
Public Class AClass
' Add Description and ParamArray (with the keyword) attributes.
Public Sub ParamArrayAndDesc( _
<Description("This argument is a ParamArray")> _
ByVal ParamArray args() As Integer)
End Sub
End Class
Sub Main()
' Get the Class type to access its metadata.
Dim clsType As Type = GetType(AClass)
' Get the type information for the method.
Dim mInfo As MethodInfo = clsType.GetMethod("ParamArrayAndDesc")
' Get the Parameter information for the method.
Dim pInfo() As ParameterInfo = mInfo.GetParameters()
Dim attr As Attribute
' Iterate through each attribute of the parameter.
For Each attr In Attribute.GetCustomAttributes(pInfo(0))
' Check for the ParamArray attribute.
If TypeOf attr Is ParamArrayAttribute Then
' Convert the attribute to access its data.
Dim paAttr As ParamArrayAttribute = _
CType(attr, ParamArrayAttribute)
Console.WriteLine("Parameter {0} for method {1} has the " + _
"ParamArray attribute.", pInfo(0).Name, mInfo.Name)
' Check for the Description attribute.
ElseIf TypeOf attr Is DescriptionAttribute Then
' Convert the attribute to access its data.
Dim descAttr As DescriptionAttribute = _
CType(attr, DescriptionAttribute)
Console.WriteLine("Parameter {0} for method {1} has a description " + _
"attribute. The description is:", pInfo(0).Name, mInfo.Name)
Console.WriteLine(descAttr.Description)
End If
Next
End Sub
End Module
' Output:
' Parameter args for method ParamArrayAndDesc has the ParamArray attribute.
' Parameter args for method ParamArrayAndDesc has a description attribute. The description is:
' This argument is a ParamArray
注解
如果 element 表示派生类型方法中的参数,则返回值包括应用于重写基方法中相同参数的可继承自定义属性。
适用于
GetCustomAttributes(Module)
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
检索应用于模块的自定义属性的数组。 参数指定模块。
public:
static cli::array <Attribute ^> ^ GetCustomAttributes(System::Reflection::Module ^ element);public static Attribute[] GetCustomAttributes (System.Reflection.Module element);static member GetCustomAttributes : System.Reflection.Module -> Attribute[]Public Shared Function GetCustomAttributes (element As Module) As Attribute()参数
返回
一个 Attribute 数组,其中包含应用于 element的自定义属性;如果没有此类自定义属性,则为空数组。
例外
element
null。
示例
下面的代码示例演示如何使用 GetCustomAttributes,以 Module 作为参数。
using namespace System;
using namespace System::Reflection;
using namespace System::ComponentModel;
// Assign some attributes to the module.
// Set the module's CLSCompliant attribute to false
// The CLSCompliant attribute is applicable for /target:module.
[module:Description("A sample description")];
[module:CLSCompliant(false)];
namespace CustAttrs2CS
{
ref class DemoClass
{
public:
static void Main()
{
Type^ clsType = DemoClass::typeid;
// Get the Module type to access its metadata.
Module^ module = clsType->Module;
// Iterate through all the attributes for the module.
System::Collections::IEnumerator^ myEnum1 = Attribute::GetCustomAttributes( module )->GetEnumerator();
while ( myEnum1->MoveNext() )
{
Attribute^ attr = safe_cast<Attribute^>(myEnum1->Current);
// Check for the Description attribute.
if ( attr->GetType() == DescriptionAttribute::typeid )
Console::WriteLine( "Module {0} has the description \"{1}\".", module->Name, (dynamic_cast<DescriptionAttribute^>(attr))->Description );
// Check for the CLSCompliant attribute.
else
// Check for the CLSCompliant attribute.
if ( attr->GetType() == CLSCompliantAttribute::typeid )
Console::WriteLine( "Module {0} {1} CLSCompliant.", module->Name, (dynamic_cast<CLSCompliantAttribute^>(attr))->IsCompliant ? (String^)"is" : "is not" );
}
}
};
}
/*
* Output:
* Module CustAttrs2CS.exe is not CLSCompliant.
* Module CustAttrs2CS.exe has the description "A sample description".
*/
using System;
using System.Reflection;
using System.ComponentModel;
// Assign some attributes to the module.
[module:Description("A sample description")]
// Set the module's CLSCompliant attribute to false
// The CLSCompliant attribute is applicable for /target:module.
[module:CLSCompliant(false)]
namespace CustAttrs2CS {
class DemoClass {
static void Main(string[] args) {
Type clsType = typeof(DemoClass);
// Get the Module type to access its metadata.
Module module = clsType.Module;
// Iterate through all the attributes for the module.
foreach(Attribute attr in Attribute.GetCustomAttributes(module)) {
// Check for the Description attribute.
if (attr.GetType() == typeof(DescriptionAttribute))
Console.WriteLine("Module {0} has the description " +
"\"{1}\".", module.Name,
((DescriptionAttribute)attr).Description);
// Check for the CLSCompliant attribute.
else if (attr.GetType() == typeof(CLSCompliantAttribute))
Console.WriteLine("Module {0} {1} CLSCompliant.",
module.Name,
((CLSCompliantAttribute)attr).IsCompliant ?
"is" : "is not");
}
}
}
}
/*
* Output:
* Module CustAttrs2CS.exe is not CLSCompliant.
* Module CustAttrs2CS.exe has the description "A sample description".
*/
open System
open System.ComponentModel
// Assign some attributes to the module.
[<``module``: Description "A sample description">]
// Set the module's CLSCompliant attribute to false
// The CLSCompliant attribute is applicable for /target:module.
[<``module``: CLSCompliant false>]
do ()
type DemoClass = class end
// Get the Module type to access its metadata.
let ilmodule = typeof<DemoClass>.Module
// Iterate through all the attributes for the module.
for attr in Attribute.GetCustomAttributes ilmodule do
match attr with
// Check for the Description attribute.
| :? DescriptionAttribute as attr ->
printfn $"Module {ilmodule.Name} has the description \"{attr.Description}\"."
// Check for the CLSCompliant attribute.
| :? CLSCompliantAttribute as attr ->
printfn $"""Module {ilmodule.Name} {if attr.IsCompliant then "is" else "is not"} CLSCompliant."""
| _ -> ()
// Output:
// Module CustAttrs2CS.exe is not CLSCompliant.
// Module CustAttrs2CS.exe has the description "A sample description".
Imports System.Reflection
Imports System.ComponentModel
' Give the Module some attributes.
<Module: Description("A sample description")>
' Make the CLSCompliant attribute False.
' The CLSCompliant attribute is applicable for /target:module.
<Module: CLSCompliant(False)>
Module DemoModule
Sub Main()
' Get the Module type to access its metadata.
Dim modType As Reflection.Module = GetType(DemoModule).Module
Dim attr As Attribute
' Iterate through all the attributes for the module.
For Each attr In Attribute.GetCustomAttributes(modType)
' Check for the Description attribute.
If TypeOf attr Is DescriptionAttribute Then
' Convert the attribute to access its data.
Dim descAttr As DescriptionAttribute = _
CType(attr, DescriptionAttribute)
Console.WriteLine("Module {0} has the description ""{1}"".", _
modType.Name, descAttr.Description)
' Check for the CLSCompliant attribute.
ElseIf TypeOf attr Is CLSCompliantAttribute Then
' Convert the attribute to access its data.
Dim CLSCompAttr As CLSCompliantAttribute = _
CType(attr, CLSCompliantAttribute)
Dim strCompliant As String
If CLSCompAttr.IsCompliant Then
strCompliant = "is"
Else
strCompliant = "is not"
End If
Console.WriteLine("Module {0} {1} CLSCompliant.", _
modType.Name, strCompliant)
End If
Next
End Sub
End Module
' Output:
' Module CustAttrs2VB.exe has the description "A sample description".
' Module CustAttrs2VB.exe is not CLSCompliant.
适用于
GetCustomAttributes(MemberInfo)
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
检索应用于类型成员的自定义属性的数组。 参数指定成员。
public:
static cli::array <Attribute ^> ^ GetCustomAttributes(System::Reflection::MemberInfo ^ element);public static Attribute[] GetCustomAttributes (System.Reflection.MemberInfo element);static member GetCustomAttributes : System.Reflection.MemberInfo -> Attribute[]Public Shared Function GetCustomAttributes (element As MemberInfo) As Attribute()参数
- element
- MemberInfo
一个派生自 MemberInfo 类的对象,该类描述类的构造函数、事件、字段、方法或属性成员。
返回
一个 Attribute 数组,其中包含应用于 element的自定义属性;如果没有此类自定义属性,则为空数组。
例外
element
null。
element 不是构造函数、方法、属性、事件、类型或字段。
无法加载自定义属性类型。
示例
下面的代码示例演示如何使用 GetCustomAttribute,以 MemberInfo 作为参数。
using namespace System;
using namespace System::Reflection;
using namespace System::Security;
using namespace System::Runtime::InteropServices;
namespace CustAttrs4CS
{
// Create a class for Win32 imported unmanaged functions.
public ref class Win32
{
public:
[DllImport("user32.dll", CharSet = CharSet::Unicode)]
static int MessageBox( int hWnd, String^ text, String^ caption, UInt32 type );
};
public ref class AClass
{
public:
// Add some attributes to the Win32CallMethod.
[Obsolete("This method is obsolete. Use managed MsgBox instead.")]
void Win32CallMethod()
{
Win32::MessageBox( 0, "This is an unmanaged call.", "Be Careful!", 0 );
}
};
ref class DemoClass
{
public:
static void Main()
{
// Get the Class type to access its metadata.
Type^ clsType = AClass::typeid;
// Get the type information for the Win32CallMethod.
MethodInfo^ mInfo = clsType->GetMethod( "Win32CallMethod" );
if ( mInfo != nullptr )
{
// Iterate through all the attributes for the method.
System::Collections::IEnumerator^ myEnum3 = Attribute::GetCustomAttributes( mInfo )->GetEnumerator();
while ( myEnum3->MoveNext() )
{
Attribute^ attr = safe_cast<Attribute^>(myEnum3->Current);
// Check for the Obsolete attribute.
if ( attr->GetType() == ObsoleteAttribute::typeid )
{
Console::WriteLine( "Method {0} is obsolete. "
"The message is:", mInfo->Name );
Console::WriteLine( (dynamic_cast<ObsoleteAttribute^>(attr))->Message );
}
// Check for the SuppressUnmanagedCodeSecurity attribute.
else
// Check for the SuppressUnmanagedCodeSecurity attribute.
if ( attr->GetType() == SuppressUnmanagedCodeSecurityAttribute::typeid )
{
Console::WriteLine( "This method calls unmanaged code "
"with no security check." );
Console::WriteLine( "Please do not use unless absolutely necessary." );
AClass^ myCls = gcnew AClass;
myCls->Win32CallMethod();
}
}
}
}
};
}
/*
* Output:
* Method Win32CallMethod is obsolete. The message is:
* This method is obsolete. Use managed MsgBox instead.
* This method calls unmanaged code with no security check.
* Please do not use unless absolutely necessary.
*/
using System;
using System.Reflection;
using System.Security;
using System.Runtime.InteropServices;
namespace CustAttrs4CS
{
// Define an enumeration of Win32 unmanaged types
public enum UnmanagedType
{
User,
GDI,
Kernel,
Shell,
Networking,
Multimedia
}
// Define the Unmanaged attribute.
public class UnmanagedAttribute : Attribute
{
// Storage for the UnmanagedType value.
protected UnmanagedType thisType;
// Set the unmanaged type in the constructor.
public UnmanagedAttribute(UnmanagedType type)
{
thisType = type;
}
// Define a property to get and set the UnmanagedType value.
public UnmanagedType Win32Type
{
get { return thisType; }
set { thisType = Win32Type; }
}
}
// Create a class for an imported Win32 unmanaged function.
public class Win32 {
[DllImport("user32.dll", CharSet = CharSet.Unicode)]
public static extern int MessageBox(int hWnd, String text,
String caption, uint type);
}
public class AClass {
// Add some attributes to Win32CallMethod.
[Obsolete("This method is obsolete. Use managed MsgBox instead.")]
[Unmanaged(UnmanagedType.User)]
public void Win32CallMethod()
{
Win32.MessageBox(0, "This is an unmanaged call.", "Caution!", 0);
}
}
class DemoClass {
static void Main(string[] args)
{
// Get the AClass type to access its metadata.
Type clsType = typeof(AClass);
// Get the type information for Win32CallMethod.
MethodInfo mInfo = clsType.GetMethod("Win32CallMethod");
if (mInfo != null)
{
// Iterate through all the attributes of the method.
foreach(Attribute attr in
Attribute.GetCustomAttributes(mInfo)) {
// Check for the Obsolete attribute.
if (attr.GetType() == typeof(ObsoleteAttribute))
{
Console.WriteLine("Method {0} is obsolete. " +
"The message is:",
mInfo.Name);
Console.WriteLine(" \"{0}\"",
((ObsoleteAttribute)attr).Message);
}
// Check for the Unmanaged attribute.
else if (attr.GetType() == typeof(UnmanagedAttribute))
{
Console.WriteLine(
"This method calls unmanaged code.");
Console.WriteLine(
String.Format("The Unmanaged attribute type is {0}.",
((UnmanagedAttribute)attr).Win32Type));
AClass myCls = new AClass();
myCls.Win32CallMethod();
}
}
}
}
}
}
/*
This code example produces the following results.
First, the compilation yields the warning, "... This method is
obsolete. Use managed MsgBox instead."
Second, execution yields a message box with a title of "Caution!"
and message text of "This is an unmanaged call."
Third, the following text is displayed in the console window:
Method Win32CallMethod is obsolete. The message is:
"This method is obsolete. Use managed MsgBox instead."
This method calls unmanaged code.
The Unmanaged attribute type is User.
*/
open System
open System.Runtime.InteropServices
// Define an enumeration of Win32 unmanaged types
type UnmanagedType =
| User = 0
| GDI = 1
| Kernel = 2
| Shell = 3
| Networking = 4
| Multimedia = 5
// Define the Unmanaged attribute.
type UnmanagedAttribute(unmanagedType) =
inherit Attribute()
// Define a property to get and set the UnmanagedType value.
member val Win32Type = unmanagedType with get, set
// Create a module for an imported Win32 unmanaged function.
module Win32 =
[<DllImport("user32.dll", CharSet = CharSet.Unicode)>]
extern int MessageBox(IntPtr hWnd, String text, String caption, uint ``type``)
type AClass() =
// Add some attributes to Win32CallMethod.
[<Obsolete "This method is obsolete. Use managed MsgBox instead.">]
[<Unmanaged(UnmanagedType.User)>]
member _.Win32CallMethod () =
Win32.MessageBox(0, "This is an unmanaged call.", "Caution!", 0u)
// Get the AClass type to access its metadata.
let clsType = typeof<AClass>
// Get the type information for Win32CallMethod.
let mInfo = clsType.GetMethod "Win32CallMethod"
if mInfo <> null then
// Iterate through all the attributes of the method.
for attr in Attribute.GetCustomAttributes mInfo do
match attr with
// Check for the Obsolete attribute.
| :? ObsoleteAttribute as attr ->
printfn $"Method {mInfo.Name} is obsolete. The message is:"
printfn $" \"{attr.Message}\""
// Check for the Unmanaged attribute.
| :? UnmanagedAttribute as attr ->
printfn "This method calls unmanaged code."
printfn $"The Unmanaged attribute type is {attr.Win32Type}."
let myCls = AClass()
myCls.Win32CallMethod() |> ignore
| _ -> ()
// This code example produces the following results.
//
// First, the compilation yields the warning, "... This method is
// obsolete. Use managed MsgBox instead."
// Second, execution yields a message box with a title of "Caution!"
// and message text of "This is an unmanaged call."
// Third, the following text is displayed in the console window:
// Method Win32CallMethod is obsolete. The message is:
// "This method is obsolete. Use managed MsgBox instead."
// This method calls unmanaged code.
// The Unmanaged attribute type is User.
Imports System.Reflection
Imports System.Security
Imports System.Runtime.InteropServices
' Define an enumeration of Win32 unmanaged types
Public Enum UnmanagedType
User
GDI
Kernel
Shell
Networking
Multimedia
End Enum 'UnmanagedType
' Define the Unmanaged attribute.
Public Class UnmanagedAttribute
Inherits Attribute
' Storage for the UnmanagedType value.
Protected thisType As UnmanagedType
' Set the unmanaged type in the constructor.
Public Sub New(ByVal type As UnmanagedType)
thisType = type
End Sub
' Define a property to get and set the UnmanagedType value.
Public Property Win32Type() As UnmanagedType
Get
Return thisType
End Get
Set
thisType = Win32Type
End Set
End Property
End Class
' Create a class for an imported Win32 unmanaged function.
Public Class Win32
<DllImport("user32.dll", CharSet:=CharSet.Unicode)> _
Public Shared Function MessageBox(ByVal hWnd As Integer, _
ByVal Text As String, _
ByVal caption As String, _
ByVal type As Integer) As Integer
End Function 'MessageBox
End Class
Public Class AClass
' Add some attributes to Win32CallMethod.
<Obsolete("This method is obsolete. Use managed MsgBox instead."), _
Unmanaged(UnmanagedType.User)> _
Public Sub Win32CallMethod()
Win32.MessageBox(0, "This is an unmanaged call.", "Caution!", 0)
End Sub
End Class
Class DemoClass
Shared Sub Main(ByVal args() As String)
' Get the AClass type to access its metadata.
Dim clsType As Type = GetType(AClass)
' Get the type information for Win32CallMethod.
Dim mInfo As MethodInfo = clsType.GetMethod("Win32CallMethod")
If Not (mInfo Is Nothing) Then
' Iterate through all the attributes of the method.
Dim attr As Attribute
For Each attr In Attribute.GetCustomAttributes(mInfo)
' Check for the Obsolete attribute.
If attr.GetType().Equals(GetType(ObsoleteAttribute)) Then
Console.WriteLine("Method {0} is obsolete. The message is:", mInfo.Name)
Console.WriteLine(" ""{0}""", CType(attr, ObsoleteAttribute).Message)
' Check for the Unmanaged attribute.
ElseIf attr.GetType().Equals(GetType(UnmanagedAttribute)) Then
Console.WriteLine("This method calls unmanaged code.")
Console.WriteLine( _
String.Format("The Unmanaged attribute type is {0}.", _
CType(attr, UnmanagedAttribute).Win32Type))
Dim myCls As New AClass()
myCls.Win32CallMethod()
End If
Next attr
End If
End Sub
End Class
'
'This code example produces the following results.
'
'First, the compilation yields the warning, "... This method is
'obsolete. Use managed MsgBox instead."
'Second, execution yields a message box with a title of "Caution!"
'and message text of "This is an unmanaged call."
'Third, the following text is displayed in the console window:
'
'Method Win32CallMethod is obsolete. The message is:
' "This method is obsolete. Use managed MsgBox instead."
'This method calls unmanaged code.
'The Unmanaged attribute type is User.
'
注解
返回值包含 element上级自定义属性。
注意
从 .NET Framework 版本 2.0 开始,如果属性以新的元数据格式存储,此方法将返回方法、构造函数和类型的安全属性。 使用版本 2.0 或更高版本编译的程序集使用新格式。 使用早期版本的 .NET Framework 编译的动态程序集和程序集使用旧的 XML 格式。 请参阅 发出声明性安全属性。
适用于
GetCustomAttributes(Assembly)
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
检索应用于程序集的自定义特性的数组。 参数指定程序集。
public:
static cli::array <Attribute ^> ^ GetCustomAttributes(System::Reflection::Assembly ^ element);public static Attribute[] GetCustomAttributes (System.Reflection.Assembly element);static member GetCustomAttributes : System.Reflection.Assembly -> Attribute[]Public Shared Function GetCustomAttributes (element As Assembly) As Attribute()参数
返回
一个 Attribute 数组,其中包含应用于 element的自定义属性;如果没有此类自定义属性,则为空数组。
例外
element
null。
示例
以下示例检索在当前程序集中找到的自定义属性。
using namespace System;
using namespace System::Reflection;
[assembly:AssemblyTitle("CustAttrs1CPP")];
[assembly:AssemblyDescription("GetCustomAttributes() Demo")];
[assembly:AssemblyCompany("Microsoft")];
ref class Example
{};
static void main()
{
Type^ clsType = Example::typeid;
// Get the Assembly type to access its metadata.
Assembly^ assy = clsType->Assembly;
// Iterate through the attributes for the assembly.
System::Collections::IEnumerator^ myEnum = Attribute::GetCustomAttributes( assy )->GetEnumerator();
while ( myEnum->MoveNext() )
{
Attribute^ attr = safe_cast<Attribute^>(myEnum->Current);
// Check for the AssemblyTitle attribute.
if ( attr->GetType() == AssemblyTitleAttribute::typeid )
Console::WriteLine( "Assembly title is \"{0}\".", (dynamic_cast<AssemblyTitleAttribute^>(attr))->Title );
// Check for the AssemblyDescription attribute.
else
// Check for the AssemblyDescription attribute.
if ( attr->GetType() == AssemblyDescriptionAttribute::typeid )
Console::WriteLine( "Assembly description is \"{0}\".", (dynamic_cast<AssemblyDescriptionAttribute^>(attr))->Description );
// Check for the AssemblyCompany attribute.
else if ( attr->GetType() == AssemblyCompanyAttribute::typeid )
Console::WriteLine( "Assembly company is {0}.", (dynamic_cast<AssemblyCompanyAttribute^>(attr))->Company );
}
}
// The example displays the following output:
// Assembly description is "GetCustomAttributes() Demo".
// Assembly company is Microsoft.
// Assembly title is "CustAttrs1CPP".
using System;
using System.Reflection;
[assembly: AssemblyTitle("CustAttrs1CS")]
[assembly: AssemblyDescription("GetCustomAttributes() Demo")]
[assembly: AssemblyCompany("Microsoft")]
class Example {
static void Main() {
// Get the Assembly object to access its metadata.
Assembly assy = typeof(Example).Assembly;
// Iterate through the attributes for the assembly.
foreach(Attribute attr in Attribute.GetCustomAttributes(assy)) {
// Check for the AssemblyTitle attribute.
if (attr.GetType() == typeof(AssemblyTitleAttribute))
Console.WriteLine("Assembly title is \"{0}\".",
((AssemblyTitleAttribute)attr).Title);
// Check for the AssemblyDescription attribute.
else if (attr.GetType() ==
typeof(AssemblyDescriptionAttribute))
Console.WriteLine("Assembly description is \"{0}\".",
((AssemblyDescriptionAttribute)attr).Description);
// Check for the AssemblyCompany attribute.
else if (attr.GetType() == typeof(AssemblyCompanyAttribute))
Console.WriteLine("Assembly company is {0}.",
((AssemblyCompanyAttribute)attr).Company);
}
}
}
// The example displays the following output:
// Assembly title is "CustAttrs1CS".
// Assembly description is "GetCustomAttributes() Demo".
// Assembly company is Microsoft.
open System
open System.Reflection
[<assembly: AssemblyTitle "CustAttrs1CS">]
[<assembly: AssemblyDescription "GetCustomAttributes() Demo">]
[<assembly: AssemblyCompany"Microsoft">]
do ()
type Example = class end
// Get the Assembly object to access its metadata.
let assembly = typeof<Example>.Assembly
// Iterate through the attributes for the assembly.
for attr in Attribute.GetCustomAttributes assembly do
match attr with
// Check for the AssemblyTitle attribute.
| :? AssemblyTitleAttribute as attr ->
printfn $"Assembly title is \"{attr.Title}\"."
// Check for the AssemblyDescription attribute.
| :? AssemblyDescriptionAttribute as attr ->
printfn $"Assembly description is \"{attr.Description}\"."
// Check for the AssemblyCompany attribute.
| :? AssemblyCompanyAttribute as attr ->
printfn $"Assembly company is {attr.Company}."
| _ -> ()
// The example displays the following output:
// Assembly title is "CustAttrs1CS".
// Assembly description is "GetCustomAttributes() Demo".
// Assembly company is Microsoft.
Imports System.Reflection
<Assembly: AssemblyTitle("CustAttrs1VB")>
<Assembly: AssemblyDescription("GetCustomAttributes() Demo")>
<Assembly: AssemblyCompany("Microsoft")>
Module Example
Sub Main()
' Get the Assembly type to access its metadata.
Dim assy As Reflection.Assembly = GetType(Example).Assembly
' Iterate through all the attributes for the assembly.
For Each attr As Attribute In Attribute.GetCustomAttributes(assy)
' Check for the AssemblyTitle attribute.
If TypeOf attr Is AssemblyTitleAttribute Then
' Convert the attribute to access its data.
Dim attrTitle As AssemblyTitleAttribute = _
CType(attr, AssemblyTitleAttribute)
Console.WriteLine("Assembly title is ""{0}"".", _
attrTitle.Title)
' Check for the AssemblyDescription attribute.
ElseIf TypeOf attr Is AssemblyDescriptionAttribute Then
' Convert the attribute to access its data.
Dim attrDesc As AssemblyDescriptionAttribute = _
CType(attr, AssemblyDescriptionAttribute)
Console.WriteLine("Assembly description is ""{0}"".", _
attrDesc.Description)
' Check for the AssemblyCompany attribute.
ElseIf TypeOf attr Is AssemblyCompanyAttribute Then
' Convert the attribute to access its data.
Dim attrComp As AssemblyCompanyAttribute = _
CType(attr, AssemblyCompanyAttribute)
Console.WriteLine("Assembly company is {0}.", _
attrComp.Company)
End If
Next
End Sub
End Module
' The example displays the following output:
' Assembly company is Microsoft.
' Assembly description is "GetCustomAttributes() Demo".
' Assembly title is "CustAttrs1VB".
注解
注意
从 .NET Framework 版本 2.0 开始,如果属性以新的元数据格式存储,此方法将返回安全属性。 使用版本 2.0 或更高版本编译的程序集使用新格式。 使用早期版本的 .NET Framework 编译的动态程序集和程序集使用旧的 XML 格式。 请参阅 发出声明性安全属性。
适用于
GetCustomAttributes(Module, Boolean)
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
- Source:
- Attribute.CoreCLR.cs
检索应用于模块的自定义属性的数组。 参数指定模块和忽略的搜索选项。
public:
static cli::array <Attribute ^> ^ GetCustomAttributes(System::Reflection::Module ^ element, bool inherit);public static Attribute[] GetCustomAttributes (System.Reflection.Module element, bool inherit);static member GetCustomAttributes : System.Reflection.Module * bool -> Attribute[]Public Shared Function GetCustomAttributes (element As Module, inherit As Boolean) As Attribute()参数
- inherit
- Boolean
忽略此参数,不会影响此方法的操作。
返回
一个 Attribute 数组,其中包含应用于 element的自定义属性;如果没有此类自定义属性,则为空数组。
例外
element
null。
示例
下面的代码示例演示如何使用 GetCustomAttributes,以 Module 作为参数。
using namespace System;
using namespace System::Reflection;
using namespace System::ComponentModel;
// Assign some attributes to the module.
// Set the module's CLSCompliant attribute to false
// The CLSCompliant attribute is applicable for /target:module.
[module:Description("A sample description")];
[module:CLSCompliant(false)];
namespace CustAttrs2CS
{
ref class DemoClass
{
public:
static void Main()
{
Type^ clsType = DemoClass::typeid;
// Get the Module type to access its metadata.
Module^ module = clsType->Module;
// Iterate through all the attributes for the module.
System::Collections::IEnumerator^ myEnum1 = Attribute::GetCustomAttributes( module )->GetEnumerator();
while ( myEnum1->MoveNext() )
{
Attribute^ attr = safe_cast<Attribute^>(myEnum1->Current);
// Check for the Description attribute.
if ( attr->GetType() == DescriptionAttribute::typeid )
Console::WriteLine( "Module {0} has the description \"{1}\".", module->Name, (dynamic_cast<DescriptionAttribute^>(attr))->Description );
// Check for the CLSCompliant attribute.
else
// Check for the CLSCompliant attribute.
if ( attr->GetType() == CLSCompliantAttribute::typeid )
Console::WriteLine( "Module {0} {1} CLSCompliant.", module->Name, (dynamic_cast<CLSCompliantAttribute^>(attr))->IsCompliant ? (String^)"is" : "is not" );
}
}
};
}
/*
* Output:
* Module CustAttrs2CS.exe is not CLSCompliant.
* Module CustAttrs2CS.exe has the description "A sample description".
*/
using System;
using System.Reflection;
using System.ComponentModel;
// Assign some attributes to the module.
[module:Description("A sample description")]
// Set the module's CLSCompliant attribute to false
// The CLSCompliant attribute is applicable for /target:module.
[module:CLSCompliant(false)]
namespace CustAttrs2CS {
class DemoClass {
static void Main(string[] args) {
Type clsType = typeof(DemoClass);
// Get the Module type to access its metadata.
Module module = clsType.Module;
// Iterate through all the attributes for the module.
foreach(Attribute attr in Attribute.GetCustomAttributes(module)) {
// Check for the Description attribute.
if (attr.GetType() == typeof(DescriptionAttribute))
Console.WriteLine("Module {0} has the description " +
"\"{1}\".", module.Name,
((DescriptionAttribute)attr).Description);
// Check for the CLSCompliant attribute.
else if (attr.GetType() == typeof(CLSCompliantAttribute))
Console.WriteLine("Module {0} {1} CLSCompliant.",
module.Name,
((CLSCompliantAttribute)attr).IsCompliant ?
"is" : "is not");
}
}
}
}
/*
* Output:
* Module CustAttrs2CS.exe is not CLSCompliant.
* Module CustAttrs2CS.exe has the description "A sample description".
*/
open System
open System.ComponentModel
// Assign some attributes to the module.
[<``module``: Description "A sample description">]
// Set the module's CLSCompliant attribute to false
// The CLSCompliant attribute is applicable for /target:module.
[<``module``: CLSCompliant false>]
do ()
type DemoClass = class end
// Get the Module type to access its metadata.
let ilmodule = typeof<DemoClass>.Module
// Iterate through all the attributes for the module.
for attr in Attribute.GetCustomAttributes ilmodule do
match attr with
// Check for the Description attribute.
| :? DescriptionAttribute as attr ->
printfn $"Module {ilmodule.Name} has the description \"{attr.Description}\"."
// Check for the CLSCompliant attribute.
| :? CLSCompliantAttribute as attr ->
printfn $"""Module {ilmodule.Name} {if attr.IsCompliant then "is" else "is not"} CLSCompliant."""
| _ -> ()
// Output:
// Module CustAttrs2CS.exe is not CLSCompliant.
// Module CustAttrs2CS.exe has the description "A sample description".
Imports System.Reflection
Imports System.ComponentModel
' Give the Module some attributes.
<Module: Description("A sample description")>
' Make the CLSCompliant attribute False.
' The CLSCompliant attribute is applicable for /target:module.
<Module: CLSCompliant(False)>
Module DemoModule
Sub Main()
' Get the Module type to access its metadata.
Dim modType As Reflection.Module = GetType(DemoModule).Module
Dim attr As Attribute
' Iterate through all the attributes for the module.
For Each attr In Attribute.GetCustomAttributes(modType)
' Check for the Description attribute.
If TypeOf attr Is DescriptionAttribute Then
' Convert the attribute to access its data.
Dim descAttr As DescriptionAttribute = _
CType(attr, DescriptionAttribute)
Console.WriteLine("Module {0} has the description ""{1}"".", _
modType.Name, descAttr.Description)
' Check for the CLSCompliant attribute.
ElseIf TypeOf attr Is CLSCompliantAttribute Then
' Convert the attribute to access its data.
Dim CLSCompAttr As CLSCompliantAttribute = _
CType(attr, CLSCompliantAttribute)
Dim strCompliant As String
If CLSCompAttr.IsCompliant Then
strCompliant = "is"
Else
strCompliant = "is not"
End If
Console.WriteLine("Module {0} {1} CLSCompliant.", _
modType.Name, strCompliant)
End If
Next
End Sub
End Module
' Output:
' Module CustAttrs2VB.exe has the description "A sample description".
' Module CustAttrs2VB.exe is not CLSCompliant.
注解
如果 inherittrue,则返回值包含 element 的上级自定义属性。
