Attribute.GetCustomAttribute Метод
Определение
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Извлекает настраиваемый атрибут указанного типа, который применен к сборке, модулю, члену типа или параметру метода.
Перегрузки
GetCustomAttribute(ParameterInfo, Type, Boolean) |
Извлекает настраиваемый атрибут, примененный к параметру метода. Параметры определяют параметр метода и тип настраиваемого атрибута для поиска и признак поиска родительского элемента параметра метода. |
GetCustomAttribute(MemberInfo, Type, Boolean) |
Извлекает настраиваемый атрибут, примененный к члену типа. Параметры определяют член и тип настраиваемого атрибута для поиска и признак поиска родительского элемента члена. |
GetCustomAttribute(Assembly, Type, Boolean) |
Извлекает настраиваемый атрибут, примененный к сборке. Параметры определяют сборку, тип настраиваемого атрибута для поиска и игнорированный параметр поиска. |
GetCustomAttribute(Module, Type, Boolean) |
Извлекает настраиваемый атрибут, примененный к модулю. Параметры определяют модуль, тип настраиваемого атрибута для поиска и игнорированный параметр поиска. |
GetCustomAttribute(Module, Type) |
Извлекает настраиваемый атрибут, примененный к модулю. Параметры определяют модуль и тип настраиваемого атрибута для поиска. |
GetCustomAttribute(MemberInfo, Type) |
Извлекает настраиваемый атрибут, примененный к члену типа. Параметры определяют член и тип настраиваемого атрибута для поиска. |
GetCustomAttribute(Assembly, Type) |
Извлекает настраиваемый атрибут, примененный к заданной сборке. Параметры определяют сборку и тип настраиваемого атрибута для поиска. |
GetCustomAttribute(ParameterInfo, Type) |
Извлекает настраиваемый атрибут, примененный к параметру метода. Параметры определяют параметр метода и тип настраиваемого атрибута для поиска. |
GetCustomAttribute(ParameterInfo, Type, Boolean)
Извлекает настраиваемый атрибут, примененный к параметру метода. Параметры определяют параметр метода и тип настраиваемого атрибута для поиска и признак поиска родительского элемента параметра метода.
public:
static Attribute ^ GetCustomAttribute(System::Reflection::ParameterInfo ^ element, Type ^ attributeType, bool inherit);
public static Attribute? GetCustomAttribute (System.Reflection.ParameterInfo element, Type attributeType, bool inherit);
public static Attribute GetCustomAttribute (System.Reflection.ParameterInfo element, Type attributeType, bool inherit);
static member GetCustomAttribute : System.Reflection.ParameterInfo * Type * bool -> Attribute
Public Shared Function GetCustomAttribute (element As ParameterInfo, attributeType As Type, inherit As Boolean) As Attribute
Параметры
- element
- ParameterInfo
Объект, являющийся производным от класса ParameterInfo, который описывает параметр члена класса.
- attributeType
- Type
Тип или базовый тип искомого настраиваемого атрибута.
- inherit
- Boolean
Если true
, задает для настраиваемых атрибутов поиск родительских элементов для element
.
Возвращаемое значение
Ссылка на один настраиваемый атрибут типа attributeType
, примененный к element
, или null
, если такого атрибута нет.
Исключения
Параметр element
или attributeType
имеет значение null
.
Тип attributeType
не является производным объекта Attribute.
Найдено несколько запрошенных атрибутов.
Не удалось загрузить тип настраиваемого атрибута.
Примеры
В следующем примере кода определяется пользовательский класс параметров Attribute и применяется пользовательский атрибут к методу в производном классе и базе производного класса. В примере показано использование GetCustomAttribute метода для возврата атрибутов.
// Example for the Attribute::GetCustomAttribute( ParameterInfo*, Type*, bool )
// method.
using namespace System;
using namespace System::Collections;
using namespace System::Reflection;
namespace NDP_UE_CPP
{
// Define a custom parameter attribute that takes a single message argument.
[AttributeUsage(AttributeTargets::Parameter)]
public ref class ArgumentUsageAttribute: public Attribute
{
protected:
// usageMsg is storage for the attribute message.
String^ usageMsg;
public:
// This is the attribute constructor.
ArgumentUsageAttribute( String^ UsageMsg )
{
this->usageMsg = UsageMsg;
}
property String^ Message
{
// This is the Message property for the attribute.
String^ get()
{
return usageMsg;
}
void set( String^ value )
{
this->usageMsg = value;
}
}
};
public ref class BaseClass
{
public:
// Assign an ArgumentUsage attribute to the strArray parameter.
// Assign a ParamArray attribute to strList.
virtual void TestMethod( [ArgumentUsage("Must pass an array here.")]array<String^>^strArray,
...array<String^>^strList ){}
};
public ref class DerivedClass: public BaseClass
{
public:
// Assign an ArgumentUsage attributes to the strList parameter.
virtual void TestMethod( array<String^>^strArray, [ArgumentUsage(
"Can pass a parameter list or array here.")]array<String^>^strList ) override {}
};
void DisplayParameterAttributes( MethodInfo^ mInfo, array<ParameterInfo^>^pInfoArray, bool includeInherited )
{
Console::WriteLine( "\nParameter attribute information for method \"{0}"
"\"\nincludes inheritance from base class: {1}.", mInfo->Name, includeInherited ? (String^)"Yes" : "No" );
// This implements foreach( ParameterInfo* paramInfo in pInfoArray ).
IEnumerator^ myEnum = pInfoArray->GetEnumerator();
while ( myEnum->MoveNext() )
{
ParameterInfo^ paramInfo = safe_cast<ParameterInfo^>(myEnum->Current);
// See if the ParamArray attribute is defined.
bool isDef = Attribute::IsDefined( paramInfo, ParamArrayAttribute::typeid );
if ( isDef )
Console::WriteLine( "\n The ParamArray attribute is defined "
"for \n parameter {0} of method {1}.", paramInfo->Name, mInfo->Name );
// See if ParamUsageAttribute is defined.
// If so, display a message.
ArgumentUsageAttribute^ usageAttr = static_cast<ArgumentUsageAttribute^>(Attribute::GetCustomAttribute( paramInfo, ArgumentUsageAttribute::typeid, includeInherited ));
if ( usageAttr != nullptr )
{
Console::WriteLine( "\n The ArgumentUsage attribute is defined "
"for \n parameter {0} of method {1}.", paramInfo->Name, mInfo->Name );
Console::WriteLine( "\n The usage "
"message for {0} is:\n \"{1}\".", paramInfo->Name, usageAttr->Message );
}
}
}
}
int main()
{
Console::WriteLine( "This example of Attribute::GetCustomAttribute( ParameterInfo*, "
"Type*, bool )\ngenerates the following output." );
// Get the class type, and then get the MethodInfo object
// for TestMethod to access its metadata.
Type^ clsType = NDP_UE_CPP::DerivedClass::typeid;
MethodInfo^ mInfo = clsType->GetMethod( "TestMethod" );
// Iterate through the ParameterInfo array for the method parameters.
array<ParameterInfo^>^pInfoArray = mInfo->GetParameters();
if ( pInfoArray != nullptr )
{
NDP_UE_CPP::DisplayParameterAttributes( mInfo, pInfoArray, false );
NDP_UE_CPP::DisplayParameterAttributes( mInfo, pInfoArray, true );
}
else
Console::WriteLine( "The parameters information could "
"not be retrieved for method {0}.", mInfo->Name );
}
/*
This example of Attribute::GetCustomAttribute( ParameterInfo*, Type*, bool )
generates the following output.
Parameter attribute information for method "TestMethod"
includes inheritance from base class: No.
The ParamArray attribute is defined for
parameter strList of method TestMethod.
The ArgumentUsage attribute is defined for
parameter strList of method TestMethod.
The usage message for strList is:
"Can pass a parameter list or array here.".
Parameter attribute information for method "TestMethod"
includes inheritance from base class: Yes.
The ArgumentUsage attribute is defined for
parameter strArray of method TestMethod.
The usage message for strArray is:
"Must pass an array here.".
The ParamArray attribute is defined for
parameter strList of method TestMethod.
The ArgumentUsage attribute is defined for
parameter strList of method TestMethod.
The usage message for strList is:
"Can pass a parameter list or array here.".
*/
// Example for the Attribute.GetCustomAttribute( ParameterInfo, Type, Boolean )
// method.
using System;
using System.Reflection;
namespace NDP_UE_CS
{
// Define a custom parameter attribute that takes a single message argument.
[AttributeUsage( AttributeTargets.Parameter )]
public class ArgumentUsageAttribute : Attribute
{
// This is the attribute constructor.
public ArgumentUsageAttribute( string UsageMsg )
{
this.usageMsg = UsageMsg;
}
// usageMsg is storage for the attribute message.
protected string usageMsg;
// This is the Message property for the attribute.
public string Message
{
get { return usageMsg; }
set { usageMsg = value; }
}
}
public class BaseClass
{
// Assign an ArgumentUsage attribute to the strArray parameter.
// Assign a ParamArray attribute to strList using the params keyword.
public virtual void TestMethod(
[ArgumentUsage("Must pass an array here.")]
String[] strArray,
params String[] strList)
{ }
}
public class DerivedClass : BaseClass
{
// Assign an ArgumentUsage attribute to the strList parameter.
// Assign a ParamArray attribute to strList using the params keyword.
public override void TestMethod(
String[] strArray,
[ArgumentUsage("Can pass a parameter list or array here.")]
params String[] strList)
{ }
}
class CustomParamDemo
{
static void Main( )
{
Console.WriteLine(
"This example of Attribute.GetCustomAttribute( Parameter" +
"Info, Type, Boolean )\ngenerates the following output." );
// Get the class type, and then get the MethodInfo object
// for TestMethod to access its metadata.
Type clsType = typeof(DerivedClass);
MethodInfo mInfo = clsType.GetMethod("TestMethod");
// Iterate through the ParameterInfo array for the method parameters.
ParameterInfo[] pInfoArray = mInfo.GetParameters();
if (pInfoArray != null)
{
DisplayParameterAttributes( mInfo, pInfoArray, false );
DisplayParameterAttributes( mInfo, pInfoArray, true );
}
else
Console.WriteLine("The parameters information could " +
"not be retrieved for method {0}.", mInfo.Name);
}
static void DisplayParameterAttributes( MethodInfo mInfo,
ParameterInfo[] pInfoArray, bool includeInherited )
{
Console.WriteLine(
"\nParameter attribute information for method \"" +
"{0}\"\nincludes inheritance from base class: {1}.",
mInfo.Name, includeInherited ? "Yes" : "No" );
// Display the attribute information for the parameters.
foreach( ParameterInfo paramInfo in pInfoArray )
{
// See if the ParamArray attribute is defined.
bool isDef = Attribute.IsDefined( paramInfo,
typeof(ParamArrayAttribute));
if( isDef )
Console.WriteLine(
"\n The ParamArray attribute is defined " +
"for \n parameter {0} of method {1}.",
paramInfo.Name, mInfo.Name);
// See if ParamUsageAttribute is defined.
// If so, display a message.
ArgumentUsageAttribute usageAttr = (ArgumentUsageAttribute)
Attribute.GetCustomAttribute( paramInfo,
typeof(ArgumentUsageAttribute),
includeInherited );
if( usageAttr != null )
{
Console.WriteLine(
"\n The ArgumentUsage attribute is def" +
"ined for \n parameter {0} of method {1}.",
paramInfo.Name, mInfo.Name );
Console.WriteLine( "\n The usage " +
"message for {0} is:\n \"{1}\".",
paramInfo.Name, usageAttr.Message);
}
}
}
}
}
/*
This example of Attribute.GetCustomAttribute( ParameterInfo, Type, Boolean )
generates the following output.
Parameter attribute information for method "TestMethod"
includes inheritance from base class: No.
The ParamArray attribute is defined for
parameter strList of method TestMethod.
The ArgumentUsage attribute is defined for
parameter strList of method TestMethod.
The usage message for strList is:
"Can pass a parameter list or array here.".
Parameter attribute information for method "TestMethod"
includes inheritance from base class: Yes.
The ArgumentUsage attribute is defined for
parameter strArray of method TestMethod.
The usage message for strArray is:
"Must pass an array here.".
The ParamArray attribute is defined for
parameter strList of method TestMethod.
The ArgumentUsage attribute is defined for
parameter strList of method TestMethod.
The usage message for strList is:
"Can pass a parameter list or array here.".
*/
open System
open System.Reflection
// Define a custom parameter attribute that takes a single message argument.
[<AttributeUsage(AttributeTargets.Parameter); AllowNullLiteral>]
type ArgumentUsageAttribute(usageMsg) =
inherit Attribute()
// This is the Message property for the attribute.
member val Message: string = usageMsg
type BaseClass() =
// Assign an ArgumentUsage attribute to the strArray parameter.
// Assign a ParamArray attribute to strList.
abstract member TestMethod: string [] * string[] -> unit
default _.TestMethod(
[<ArgumentUsage "Must pass an array here.">]
strArray,
[<ParamArray>]
strList) = ()
type DerivedClass() =
inherit BaseClass()
// Assign an ArgumentUsage attribute to the strList parameter.
// Assign a ParamArray attribute to strList.
override _.TestMethod(
strArray,
[<ArgumentUsage "Can pass a parameter list or array here."; ParamArray>]
strList) = ()
let displayParameterAttributes (mInfo: MethodInfo) (pInfoArray: ParameterInfo []) includeInherited =
printfn $"""
Parameter attribute information for method "{mInfo.Name}"
includes inheritance from base class: {if includeInherited then "Yes" else "No"}."""
// Display the attribute information for the parameters.
for paramInfo in pInfoArray do
// See if the ParamArray attribute is defined.
let isDef = Attribute.IsDefined(paramInfo, typeof<ParamArrayAttribute>)
if isDef then
printfn $"\n The ParamArray attribute is defined for \n parameter {paramInfo.Name} of method {mInfo.Name}."
// See if ParamUsageAttribute is defined.
// If so, display a message.
let usageAttr =
Attribute.GetCustomAttribute(paramInfo, typeof<ArgumentUsageAttribute>, includeInherited)
:?> ArgumentUsageAttribute
if usageAttr <> null then
printfn $"\n The ArgumentUsage attribute is defined for \n parameter {paramInfo.Name} of method {mInfo.Name}."
printfn $"\n The usage message for {paramInfo.Name} is:\n \"{usageAttr.Message}\"."
printfn "This example of Attribute.GetCustomAttribute(ParameterInfo, Type, Boolean)\ngenerates the following output."
// Get the class type, and then get the MethodInfo object
// for TestMethod to access its metadata.
let clsType = typeof<DerivedClass>
let mInfo = clsType.GetMethod "TestMethod"
// Iterate through the ParameterInfo array for the method parameters.
let pInfoArray = mInfo.GetParameters()
if pInfoArray <> null then
displayParameterAttributes mInfo pInfoArray false
displayParameterAttributes mInfo pInfoArray true
else
printfn $"The parameters information could not be retrieved for method {mInfo.Name}."
// This example of Attribute.GetCustomAttribute( ParameterInfo, Type, Boolean )
// generates the following output.
//
// Parameter attribute information for method "TestMethod"
// includes inheritance from base class: No.
//
// The ParamArray attribute is defined for
// parameter strList of method TestMethod.
//
// The ArgumentUsage attribute is defined for
// parameter strList of method TestMethod.
//
// The usage message for strList is:
// "Can pass a parameter list or array here.".
//
// Parameter attribute information for method "TestMethod"
// includes inheritance from base class: Yes.
//
// The ArgumentUsage attribute is defined for
// parameter strArray of method TestMethod.
//
// The usage message for strArray is:
// "Must pass an array here.".
//
// The ParamArray attribute is defined for
// parameter strList of method TestMethod.
//
// The ArgumentUsage attribute is defined for
// parameter strList of method TestMethod.
//
// The usage message for strList is:
// "Can pass a parameter list or array here.".
' Example for the Attribute.GetCustomAttribute( ParameterInfo, Type, Boolean )
' method.
Imports System.Reflection
Namespace NDP_UE_VB
' Define a custom parameter attribute that takes a single message argument.
<AttributeUsage(AttributeTargets.Parameter)> _
Public Class ArgumentUsageAttribute
Inherits Attribute
' This is the attribute constructor.
Public Sub New(UsageMsg As String)
Me.usageMsg = UsageMsg
End Sub
' usageMsg is storage for the attribute message.
Protected usageMsg As String
' This is the Message property for the attribute.
Public Property Message() As String
Get
Return usageMsg
End Get
Set
usageMsg = value
End Set
End Property
End Class
Public Class BaseClass
' Assign an ArgumentUsage attribute to the strArray parameter.
' Assign a ParamArray attribute to the strList parameter.
Public Overridable Sub TestMethod( _
<ArgumentUsage("Must pass an array here.")> _
strArray() As String, _
ParamArray strList() As String)
End Sub
End Class
Public Class DerivedClass
Inherits BaseClass
' Assign an ArgumentUsage attribute to the strList parameter.
' Assign a ParamArray attribute to the strList parameter.
Public Overrides Sub TestMethod( _
strArray() As String, _
<ArgumentUsage("Can pass a parameter list or array here.")> _
ParamArray strList() As String)
End Sub
End Class
Class DemoClass
Shared Sub DisplayParameterAttributes(mInfo As MethodInfo, _
pInfoArray() As ParameterInfo, includeInherited As Boolean)
Console.WriteLine( vbCrLf & _
"Parameter attribute information for method ""{0}""" & _
vbCrLf & "includes inheritance from the base class: {1}.", _
mInfo.Name, IIf(includeInherited, "Yes", "No"))
' Display attribute information for the parameters.
Dim paramInfo As ParameterInfo
For Each paramInfo In pInfoArray
' See if the ParamArray attribute is defined.
Dim isDef As Boolean = _
Attribute.IsDefined(paramInfo, GetType(ParamArrayAttribute))
If isDef Then
Console.WriteLine( vbCrLf & " The " & _
"ParamArray attribute is defined for " & _
vbCrLf & " parameter {0} of method {1}.", _
paramInfo.Name, mInfo.Name)
End If
' See if ParamUsageAttribute is defined.
' If so, display a message.
Dim usageAttr As ArgumentUsageAttribute = _
Attribute.GetCustomAttribute(paramInfo, _
GetType(ArgumentUsageAttribute), _
includeInherited)
If Not (usageAttr Is Nothing) Then
Console.WriteLine( vbCrLf & " The " & _
"ArgumentUsage attribute is defined for " & _
vbCrLf & " parameter {0} of method {1}.", _
paramInfo.Name, mInfo.Name)
Console.WriteLine( vbCrLf & _
" The usage message for {0} is: " & _
vbCrLf & " ""{1}"".", _
paramInfo.Name, usageAttr.Message)
End If
Next paramInfo
End Sub
Public Shared Sub Main()
Console.WriteLine( _
"This example of Attribute.GetCustomAttribute" & _
"( ParameterInfo, Type, Boolean )" & vbCrLf & _
"generates the following output." )
' Get the class type, and then get the MethodInfo object
' for TestMethod to access its metadata.
Dim clsType As Type = GetType(DerivedClass)
Dim mInfo As MethodInfo = clsType.GetMethod("TestMethod")
' Iterate through the ParameterInfo array for the method parameters.
Dim pInfoArray As ParameterInfo() = mInfo.GetParameters()
If Not (pInfoArray Is Nothing) Then
DisplayParameterAttributes(mInfo, pInfoArray, False)
DisplayParameterAttributes(mInfo, pInfoArray, True)
Else
Console.WriteLine( _
"The parameters information could " & _
"not be retrieved for method {0}.", mInfo.Name)
End If
End Sub
End Class
End Namespace ' NDP_UE_VB
' This example of Attribute.GetCustomAttribute( ParameterInfo, Type, Boolean )
' generates the following output.
'
' Parameter attribute information for method "TestMethod"
' includes inheritance from the base class: No.
'
' The ParamArray attribute is defined for
' parameter strList of method TestMethod.
'
' The ArgumentUsage attribute is defined for
' parameter strList of method TestMethod.
'
' The usage message for strList is:
' "Can pass a parameter list or array here.".
'
' Parameter attribute information for method "TestMethod"
' includes inheritance from the base class: Yes.
'
' The ArgumentUsage attribute is defined for
' parameter strArray of method TestMethod.
'
' The usage message for strArray is:
' "Must pass an array here.".
'
' The ParamArray attribute is defined for
' parameter strList of method TestMethod.
'
' The ArgumentUsage attribute is defined for
' parameter strList of method TestMethod.
'
' The usage message for strList is:
' "Can pass a parameter list or array here.".
Комментарии
Если element
представляет параметр в методе производного типа, возвращаемое значение включает наследуемые настраиваемые атрибуты, применяемые к тому же параметру в переопределенных базовых методах.
Применяется к
GetCustomAttribute(MemberInfo, Type, Boolean)
Извлекает настраиваемый атрибут, примененный к члену типа. Параметры определяют член и тип настраиваемого атрибута для поиска и признак поиска родительского элемента члена.
public:
static Attribute ^ GetCustomAttribute(System::Reflection::MemberInfo ^ element, Type ^ attributeType, bool inherit);
public static Attribute? GetCustomAttribute (System.Reflection.MemberInfo element, Type attributeType, bool inherit);
public static Attribute GetCustomAttribute (System.Reflection.MemberInfo element, Type attributeType, bool inherit);
static member GetCustomAttribute : System.Reflection.MemberInfo * Type * bool -> Attribute
Public Shared Function GetCustomAttribute (element As MemberInfo, attributeType As Type, inherit As Boolean) As Attribute
Параметры
- element
- MemberInfo
Объект, производный от класса MemberInfo, который описывает член класса (конструктор, событие, поле, метод или свойство).
- attributeType
- Type
Тип или базовый тип искомого настраиваемого атрибута.
- inherit
- Boolean
Если true
, задает для настраиваемых атрибутов поиск родительских элементов для element
.
Возвращаемое значение
Ссылка на один настраиваемый атрибут типа attributeType
, примененный к element
, или null
, если такого атрибута нет.
Исключения
Параметр element
или attributeType
имеет значение null
.
Тип attributeType
не является производным объекта Attribute.
element
не представляет конструктор, метод, свойство, событие, тип или поле.
Найдено несколько запрошенных атрибутов.
Не удалось загрузить тип настраиваемого атрибута.
Примеры
В следующем примере кода показано использование GetCustomAttribute метода, который принимается MemberInfo в качестве параметра.
using namespace System;
using namespace System::Reflection;
namespace IsDef4CS
{
public ref class TestClass
{
public:
// Assign the Obsolete attribute to a method.
[Obsolete("This method is obsolete. Use Method2 instead.")]
void Method1(){}
void Method2(){}
};
ref class DemoClass
{
public:
static void Main()
{
// Get the class type to access its metadata.
Type^ clsType = TestClass::typeid;
// Get the MethodInfo object for Method1.
MethodInfo^ mInfo = clsType->GetMethod( "Method1" );
// See if the Obsolete attribute is defined for this method.
bool isDef = Attribute::IsDefined( mInfo, ObsoleteAttribute::typeid );
// Display the result.
Console::WriteLine( "The Obsolete Attribute {0} defined for {1} of class {2}.", isDef ? (String^)"is" : "is not", mInfo->Name, clsType->Name );
// If it's defined, display the attribute's message.
if ( isDef )
{
ObsoleteAttribute^ obsAttr = dynamic_cast<ObsoleteAttribute^>(Attribute::GetCustomAttribute( mInfo, ObsoleteAttribute::typeid ));
if ( obsAttr != nullptr )
Console::WriteLine( "The message is: \"{0}\".", obsAttr->Message );
else
Console::WriteLine( "The message could not be retrieved." );
}
}
};
}
/*
* Output:
* The Obsolete Attribute is defined for Method1 of class TestClass.
* The message is: "This method is obsolete. Use Method2 instead.".
*/
using System;
using System.Reflection;
namespace IsDef4CS
{
public class TestClass
{
// Assign the Obsolete attribute to a method.
[Obsolete("This method is obsolete. Use Method2 instead.")]
public void Method1()
{}
public void Method2()
{}
}
public class DemoClass
{
static void Main(string[] args)
{
// Get the class type to access its metadata.
Type clsType = typeof(TestClass);
// Get the MethodInfo object for Method1.
MethodInfo mInfo = clsType.GetMethod("Method1");
// See if the Obsolete attribute is defined for this method.
bool isDef = Attribute.IsDefined(mInfo, typeof(ObsoleteAttribute));
// Display the result.
Console.WriteLine("The Obsolete Attribute {0} defined for {1} of class {2}.",
isDef ? "is" : "is not", mInfo.Name, clsType.Name);
// If it's defined, display the attribute's message.
if (isDef)
{
ObsoleteAttribute obsAttr =
(ObsoleteAttribute)Attribute.GetCustomAttribute(
mInfo, typeof(ObsoleteAttribute));
if (obsAttr != null)
Console.WriteLine("The message is: \"{0}\".",
obsAttr.Message);
else
Console.WriteLine("The message could not be retrieved.");
}
}
}
}
/*
* Output:
* The Obsolete Attribute is defined for Method1 of class TestClass.
* The message is: "This method is obsolete. Use Method2 instead.".
*/
open System
type TestClass() =
// Assign the Obsolete attribute to a method.
[<Obsolete "This method is obsolete. Use Method2 instead.">]
member _.Method1() = ()
member _.Method2() = ()
// Get the class type to access its metadata.
let clsType = typeof<TestClass>
// Get the MethodInfo object for Method1.
let mInfo = clsType.GetMethod "Method1"
// See if the Obsolete attribute is defined for this method.
let isDef = Attribute.IsDefined(mInfo, typeof<ObsoleteAttribute>)
// Display the result.
printfn $"""The Obsolete Attribute {if isDef then "is" else "is not"} defined for {mInfo.Name} of class {clsType.Name}."""
// If it's defined, display the attribute's message.
if isDef then
let obsAttr =
Attribute.GetCustomAttribute(mInfo, typeof<ObsoleteAttribute>)
:?> ObsoleteAttribute
if obsAttr <> null then
printfn $"The message is: \"{obsAttr.Message}\"."
else
printfn "The message could not be retrieved."
// Output:
// The Obsolete Attribute is defined for Method1 of class TestClass.
// The message is: "This method is obsolete. Use Method2 instead.".
Imports System.Reflection
Module DemoModule
Public Class TestClass
' Assign the Obsolete attribute to a method.
<Obsolete("This method is obsolete. Use Method2() instead.")> _
Public Sub Method1()
End Sub
Public Sub Method2()
End Sub
End Class
Sub Main()
' Get the class type to access its metadata.
Dim clsType As Type = GetType(TestClass)
' Get the MethodInfo object for Method1.
Dim mInfo As MethodInfo = clsType.GetMethod("Method1")
' See if the Obsolete attribute is defined for this method.
Dim isDef As Boolean = Attribute.IsDefined(mInfo, _
GetType(ObsoleteAttribute))
Dim strDef As String
If isDef = True Then
strDef = "is"
Else
strDef = "is not"
End If
' Display the results.
Console.WriteLine("The Obsolete attribute {0} defined for " & _
"method {1} of class {2}.", strDef, mInfo.Name, clsType.Name)
' If it's defined, display the attribute's message.
If isDef = True Then
Dim attr As Attribute = Attribute.GetCustomAttribute(mInfo, _
GetType(ObsoleteAttribute))
If Not attr Is Nothing And TypeOf attr Is ObsoleteAttribute Then
Dim obsAttr As ObsoleteAttribute = _
CType(attr, ObsoleteAttribute)
Console.WriteLine("The message is: ""{0}""", obsAttr.Message)
Else
Console.WriteLine("The message could not be retrieved.")
End If
End If
End Sub
End Module
' Output:
' The Obsolete attribute is defined for method Method1 of class TestClass.
' The message is: "This method is obsolete. Use Method2() instead."
Комментарии
Примечание
Начиная с платформа .NET Framework версии 2.0 этот метод возвращает атрибуты безопасности для типов, методов и конструкторов, если атрибуты хранятся в новом формате метаданных. Сборки, скомпилированные с версией 2.0 или более поздней, используют новый формат. Динамические сборки и сборки, скомпилированные с более ранними версиями платформа .NET Framework использовать старый формат XML. См . инструкции по отправке декларативных атрибутов безопасности.
Применяется к
GetCustomAttribute(Assembly, Type, Boolean)
Извлекает настраиваемый атрибут, примененный к сборке. Параметры определяют сборку, тип настраиваемого атрибута для поиска и игнорированный параметр поиска.
public:
static Attribute ^ GetCustomAttribute(System::Reflection::Assembly ^ element, Type ^ attributeType, bool inherit);
public static Attribute? GetCustomAttribute (System.Reflection.Assembly element, Type attributeType, bool inherit);
public static Attribute GetCustomAttribute (System.Reflection.Assembly element, Type attributeType, bool inherit);
static member GetCustomAttribute : System.Reflection.Assembly * Type * bool -> Attribute
Public Shared Function GetCustomAttribute (element As Assembly, attributeType As Type, inherit As Boolean) As Attribute
Параметры
- element
- Assembly
Объект, производный от класса Assembly, который описывает многократно используемую коллекцию модулей.
- attributeType
- Type
Тип или базовый тип искомого настраиваемого атрибута.
- inherit
- Boolean
Этот параметр игнорируется и не влияет на работу данного метода.
Возвращаемое значение
Ссылка на один настраиваемый атрибут типа attributeType
, примененный к element
, или null
, если такого атрибута нет.
Исключения
Параметр element
или attributeType
имеет значение null
.
Тип attributeType
не является производным объекта Attribute.
Найдено несколько запрошенных атрибутов.
Примеры
В следующем примере кода показано использование GetCustomAttribute метода, который принимается Assembly в качестве параметра.
using namespace System;
using namespace System::Reflection;
// Add an AssemblyDescription attribute
[assembly:AssemblyDescription("A sample description")];
namespace IsDef1CS
{
ref class DemoClass
{
public:
static void Main()
{
// Get the class type to access its metadata.
Type^ clsType = DemoClass::typeid;
// Get the assembly object.
Assembly^ assy = clsType->Assembly;
// Store the assembly's name.
String^ assyName = assy->GetName()->Name;
//Type assyType = assy.GetType();
// See if the Assembly Description is defined.
bool isdef = Attribute::IsDefined( assy, AssemblyDescriptionAttribute::typeid );
if ( isdef )
{
// Affirm that the attribute is defined.
Console::WriteLine( "The AssemblyDescription attribute "
"is defined for assembly {0}.", assyName );
// Get the description attribute itself.
AssemblyDescriptionAttribute^ adAttr = dynamic_cast<AssemblyDescriptionAttribute^>(Attribute::GetCustomAttribute( assy, AssemblyDescriptionAttribute::typeid ));
// Display the description.
if ( adAttr != nullptr )
Console::WriteLine( "The description is \"{0}\".", adAttr->Description );
else
Console::WriteLine( "The description could not "
"be retrieved." );
}
else
Console::WriteLine( "The AssemblyDescription attribute is not "
"defined for assembly {0}.", assyName );
}
};
}
/*
* Output:
* The AssemblyDescription attributeis defined for assembly IsDef1CS.
* The description is "A sample description".
*/
using System;
using System.Reflection;
// Add an AssemblyDescription attribute
[assembly: AssemblyDescription("A sample description")]
namespace IsDef1CS
{
public class DemoClass
{
static void Main(string[] args)
{
// Get the class type to access its metadata.
Type clsType = typeof(DemoClass);
// Get the assembly object.
Assembly assy = clsType.Assembly;
// Store the assembly's name.
String assyName = assy.GetName().Name;
// See if the Assembly Description is defined.
bool isdef = Attribute.IsDefined(assy,
typeof(AssemblyDescriptionAttribute));
if (isdef)
{
// Affirm that the attribute is defined.
Console.WriteLine("The AssemblyDescription attribute " +
"is defined for assembly {0}.", assyName);
// Get the description attribute itself.
AssemblyDescriptionAttribute adAttr =
(AssemblyDescriptionAttribute)Attribute.GetCustomAttribute(
assy, typeof(AssemblyDescriptionAttribute));
// Display the description.
if (adAttr != null)
Console.WriteLine("The description is \"{0}\".",
adAttr.Description);
else
Console.WriteLine("The description could not " +
"be retrieved.");
}
else
Console.WriteLine("The AssemblyDescription attribute is not " +
"defined for assembly {0}.", assyName);
}
}
}
/*
* Output:
* The AssemblyDescription attribute is defined for assembly IsDef1CS.
* The description is "A sample description".
*/
open System
open System.Reflection
// Add an AssemblyDescription attribute
[<assembly: AssemblyDescription "A sample description">]
do ()
type DemoClass = class end
// Get the class type to access its metadata.
let clsType = typeof<DemoClass>
// Get the assembly object.
let assembly = clsType.Assembly;
// Store the assembly's name.
let assemblyName = assembly.GetName().Name
// See if the Assembly Description is defined.
let isdef =
Attribute.IsDefined(assembly, typeof<AssemblyDescriptionAttribute>)
if isdef then
// Affirm that the attribute is defined.
printfn $"The AssemblyDescription attribute is defined for assembly {assemblyName}."
// Get the description attribute itself.
let adAttr =
Attribute.GetCustomAttribute(assembly, typeof<AssemblyDescriptionAttribute>)
:?> AssemblyDescriptionAttribute
// Display the description.
if adAttr <> null then
printfn $"The description is \"{adAttr.Description}\"."
else
printfn $"The description could not be retrieved."
else
printfn $"The AssemblyDescription attribute is not defined for assembly {assemblyName}."
// Output:
// The AssemblyDescription attribute is defined for assembly IsDef1FS.
// The description is "A sample description".
Imports System.Reflection
' Add an AssemblyDescription attribute.
<Assembly: AssemblyDescription("A sample description")>
Module DemoModule
Sub Main()
' Get the assembly for this module.
Dim assy As System.Reflection.Assembly = GetType(DemoModule).Assembly
' Store the assembly name.
Dim assyName As String = assy.GetName().Name
' See if the AssemblyDescription attribute is defined.
If Attribute.IsDefined(assy, GetType(AssemblyDescriptionAttribute)) _
Then
' Affirm that the attribute is defined. Assume the filename of
' this code example is "IsDef1VB".
Console.WriteLine("The AssemblyDescription attribute is " & _
"defined for assembly {0}.", assyName)
' Get the description attribute itself.
Dim attr As Attribute = Attribute.GetCustomAttribute( _
assy, GetType(AssemblyDescriptionAttribute))
' Display the description.
If Not attr Is Nothing And _
TypeOf attr Is AssemblyDescriptionAttribute Then
Dim adAttr As AssemblyDescriptionAttribute = _
CType(attr, AssemblyDescriptionAttribute)
Console.WriteLine("The description is " & _
Chr(34) & "{0}" & Chr(34) & ".", adAttr.Description)
Else
Console.WriteLine("The description could not be retrieved.")
End If
Else
Console.WriteLine("The AssemblyDescription attribute is not " & _
"defined for assembly {0}.", assyName)
End If
End Sub
End Module
' Output:
' The AssemblyDescription attribute is defined for assembly IsDef1VB.
' The description is "A sample description".
Комментарии
Примечание
Начиная с платформа .NET Framework версии 2.0 этот метод возвращает атрибуты безопасности, если атрибуты хранятся в новом формате метаданных. Сборки, скомпилированные с версией 2.0 или более поздней, используют новый формат. Динамические сборки и сборки, скомпилированные с более ранними версиями платформа .NET Framework использовать старый формат XML. См . инструкции по отправке декларативных атрибутов безопасности.
Применяется к
GetCustomAttribute(Module, Type, Boolean)
Извлекает настраиваемый атрибут, примененный к модулю. Параметры определяют модуль, тип настраиваемого атрибута для поиска и игнорированный параметр поиска.
public:
static Attribute ^ GetCustomAttribute(System::Reflection::Module ^ element, Type ^ attributeType, bool inherit);
public static Attribute? GetCustomAttribute (System.Reflection.Module element, Type attributeType, bool inherit);
public static Attribute GetCustomAttribute (System.Reflection.Module element, Type attributeType, bool inherit);
static member GetCustomAttribute : System.Reflection.Module * Type * bool -> Attribute
Public Shared Function GetCustomAttribute (element As Module, attributeType As Type, inherit As Boolean) As Attribute
Параметры
- element
- Module
Объект, являющийся производным от класса Module, который описывает переносимый исполняемый файл.
- attributeType
- Type
Тип или базовый тип искомого настраиваемого атрибута.
- inherit
- Boolean
Этот параметр игнорируется и не влияет на работу данного метода.
Возвращаемое значение
Ссылка на один настраиваемый атрибут типа attributeType
, примененный к element
, или null
, если такого атрибута нет.
Исключения
Параметр element
или attributeType
имеет значение null
.
Тип attributeType
не является производным объекта Attribute.
Найдено несколько запрошенных атрибутов.
Примеры
В следующем примере кода показано использование GetCustomAttribute метода, который принимается Module в качестве параметра.
using namespace System;
using namespace System::Diagnostics;
// Add the Debuggable attribute to the module.
[module:Debuggable(true,false)];
namespace IsDef2CS
{
ref class DemoClass
{
public:
static void Main()
{
// Get the class type to access its metadata.
Type^ clsType = DemoClass::typeid;
// See if the Debuggable attribute is defined for this module.
bool isDef = Attribute::IsDefined( clsType->Module, DebuggableAttribute::typeid );
// Display the result.
Console::WriteLine( "The Debuggable attribute {0} "
"defined for Module {1}.", isDef ? (String^)"is" : "is not", clsType->Module->Name );
// If the attribute is defined, display the JIT settings.
if ( isDef )
{
// Retrieve the attribute itself.
DebuggableAttribute^ dbgAttr = dynamic_cast<DebuggableAttribute^>(Attribute::GetCustomAttribute( clsType->Module, DebuggableAttribute::typeid ));
if ( dbgAttr != nullptr )
{
Console::WriteLine( "JITTrackingEnabled is {0}.", dbgAttr->IsJITTrackingEnabled );
Console::WriteLine( "JITOptimizerDisabled is {0}.", dbgAttr->IsJITOptimizerDisabled );
}
else
Console::WriteLine( "The Debuggable attribute "
"could not be retrieved." );
}
}
};
}
/*
* Output:
* The Debuggable attribute is defined for Module IsDef2CS.exe.
* JITTrackingEnabled is True.
* JITOptimizerDisabled is False.
*/
using System;
using System.Diagnostics;
// Add the Debuggable attribute to the module.
[module:Debuggable(true, false)]
namespace IsDef2CS
{
public class DemoClass
{
static void Main(string[] args)
{
// Get the class type to access its metadata.
Type clsType = typeof(DemoClass);
// See if the Debuggable attribute is defined for this module.
bool isDef = Attribute.IsDefined(clsType.Module,
typeof(DebuggableAttribute));
// Display the result.
Console.WriteLine("The Debuggable attribute {0} " +
"defined for Module {1}.",
isDef ? "is" : "is not",
clsType.Module.Name);
// If the attribute is defined, display the JIT settings.
if (isDef)
{
// Retrieve the attribute itself.
DebuggableAttribute dbgAttr = (DebuggableAttribute)
Attribute.GetCustomAttribute(clsType.Module,
typeof(DebuggableAttribute));
if (dbgAttr != null)
{
Console.WriteLine("JITTrackingEnabled is {0}.",
dbgAttr.IsJITTrackingEnabled);
Console.WriteLine("JITOptimizerDisabled is {0}.",
dbgAttr.IsJITOptimizerDisabled);
}
else
Console.WriteLine("The Debuggable attribute " +
"could not be retrieved.");
}
}
}
}
/*
* Output:
* The Debuggable attribute is defined for Module IsDef2CS.exe.
* JITTrackingEnabled is True.
* JITOptimizerDisabled is False.
*/
open System
open System.Diagnostics
// Add the Debuggable attribute to the module.
[<``module``: Debuggable(true, false)>]
do ()
type DemoClass = class end
// Get the class type to access its metadata.
let clsType = typeof<DemoClass>
// See if the Debuggable attribute is defined for this module.
let isDef = Attribute.IsDefined(clsType.Module, typeof<DebuggableAttribute>)
// Display the result.
printfn $"""The Debuggable attribute {if isDef then "is" else "is not"} defined for Module {clsType.Module.Name}."""
// If the attribute is defined, display the JIT settings.
if isDef then
// Retrieve the attribute itself.
let dbgAttr =
Attribute.GetCustomAttribute(clsType.Module, typeof<DebuggableAttribute>)
:?> DebuggableAttribute
if dbgAttr <> null then
printfn $"JITTrackingEnabled is {dbgAttr.IsJITTrackingEnabled}."
printfn $"JITOptimizerDisabled is {dbgAttr.IsJITOptimizerDisabled}."
else
printfn "The Debuggable attribute could not be retrieved."
// Output:
// The Debuggable attribute is defined for Module IsDef2CS.exe.
// JITTrackingEnabled is True.
// JITOptimizerDisabled is False.
Imports System.Reflection
Imports System.Diagnostics
' Add the Debuggable attribute to the module.
<Module: Debuggable(True, False)>
Module DemoModule
Sub Main()
' Get the module type information to access its metadata.
Dim modType As Type = GetType(DemoModule)
' See if the Debuggable attribute is defined.
Dim isDef As Boolean = Attribute.IsDefined(modType.Module, _
GetType(DebuggableAttribute))
Dim strDef As String
If isDef = True Then
strDef = "is"
Else
strDef = "is not"
End If
' Display the result
Console.WriteLine("The debuggable attribute {0} defined for " & _
"module {1}.", strDef, modType.Name)
' If the attribute is defined, display the JIT settings.
If isDef = True Then
' Retrieve the attribute itself.
Dim attr As Attribute = _
Attribute.GetCustomAttribute(modType.Module, _
GetType(DebuggableAttribute))
If Not attr Is Nothing And TypeOf attr Is DebuggableAttribute Then
Dim dbgAttr As DebuggableAttribute = _
CType(attr, DebuggableAttribute)
Console.WriteLine("JITTrackingEnabled is {0}.", _
dbgAttr.IsJITTrackingEnabled.ToString())
Console.WriteLine("JITOptimizerDisabled is {0}.", _
dbgAttr.IsJITOptimizerDisabled.ToString())
Else
Console.WriteLine("The Debuggable attribute could " & _
"not be retrieved.")
End If
End If
End Sub
End Module
' Output:
' The debuggable attribute is defined for module DemoModule.
' JITTrackingEnabled is True.
' JITOptimizerDisabled is False.
Применяется к
GetCustomAttribute(Module, Type)
Извлекает настраиваемый атрибут, примененный к модулю. Параметры определяют модуль и тип настраиваемого атрибута для поиска.
public:
static Attribute ^ GetCustomAttribute(System::Reflection::Module ^ element, Type ^ attributeType);
public static Attribute? GetCustomAttribute (System.Reflection.Module element, Type attributeType);
public static Attribute GetCustomAttribute (System.Reflection.Module element, Type attributeType);
static member GetCustomAttribute : System.Reflection.Module * Type -> Attribute
Public Shared Function GetCustomAttribute (element As Module, attributeType As Type) As Attribute
Параметры
- element
- Module
Объект, являющийся производным от класса Module, который описывает переносимый исполняемый файл.
- attributeType
- Type
Тип или базовый тип искомого настраиваемого атрибута.
Возвращаемое значение
Ссылка на один настраиваемый атрибут типа attributeType
, примененный к element
, или null
, если такого атрибута нет.
Исключения
Параметр element
или attributeType
имеет значение null
.
Тип attributeType
не является производным объекта Attribute.
Найдено несколько запрошенных атрибутов.
Примеры
В следующем примере кода показано использование GetCustomAttribute метода, который принимается Module в качестве параметра.
using namespace System;
using namespace System::Diagnostics;
// Add the Debuggable attribute to the module.
[module:Debuggable(true,false)];
namespace IsDef2CS
{
ref class DemoClass
{
public:
static void Main()
{
// Get the class type to access its metadata.
Type^ clsType = DemoClass::typeid;
// See if the Debuggable attribute is defined for this module.
bool isDef = Attribute::IsDefined( clsType->Module, DebuggableAttribute::typeid );
// Display the result.
Console::WriteLine( "The Debuggable attribute {0} "
"defined for Module {1}.", isDef ? (String^)"is" : "is not", clsType->Module->Name );
// If the attribute is defined, display the JIT settings.
if ( isDef )
{
// Retrieve the attribute itself.
DebuggableAttribute^ dbgAttr = dynamic_cast<DebuggableAttribute^>(Attribute::GetCustomAttribute( clsType->Module, DebuggableAttribute::typeid ));
if ( dbgAttr != nullptr )
{
Console::WriteLine( "JITTrackingEnabled is {0}.", dbgAttr->IsJITTrackingEnabled );
Console::WriteLine( "JITOptimizerDisabled is {0}.", dbgAttr->IsJITOptimizerDisabled );
}
else
Console::WriteLine( "The Debuggable attribute "
"could not be retrieved." );
}
}
};
}
/*
* Output:
* The Debuggable attribute is defined for Module IsDef2CS.exe.
* JITTrackingEnabled is True.
* JITOptimizerDisabled is False.
*/
using System;
using System.Diagnostics;
// Add the Debuggable attribute to the module.
[module:Debuggable(true, false)]
namespace IsDef2CS
{
public class DemoClass
{
static void Main(string[] args)
{
// Get the class type to access its metadata.
Type clsType = typeof(DemoClass);
// See if the Debuggable attribute is defined for this module.
bool isDef = Attribute.IsDefined(clsType.Module,
typeof(DebuggableAttribute));
// Display the result.
Console.WriteLine("The Debuggable attribute {0} " +
"defined for Module {1}.",
isDef ? "is" : "is not",
clsType.Module.Name);
// If the attribute is defined, display the JIT settings.
if (isDef)
{
// Retrieve the attribute itself.
DebuggableAttribute dbgAttr = (DebuggableAttribute)
Attribute.GetCustomAttribute(clsType.Module,
typeof(DebuggableAttribute));
if (dbgAttr != null)
{
Console.WriteLine("JITTrackingEnabled is {0}.",
dbgAttr.IsJITTrackingEnabled);
Console.WriteLine("JITOptimizerDisabled is {0}.",
dbgAttr.IsJITOptimizerDisabled);
}
else
Console.WriteLine("The Debuggable attribute " +
"could not be retrieved.");
}
}
}
}
/*
* Output:
* The Debuggable attribute is defined for Module IsDef2CS.exe.
* JITTrackingEnabled is True.
* JITOptimizerDisabled is False.
*/
open System
open System.Diagnostics
// Add the Debuggable attribute to the module.
[<``module``: Debuggable(true, false)>]
do ()
type DemoClass = class end
// Get the class type to access its metadata.
let clsType = typeof<DemoClass>
// See if the Debuggable attribute is defined for this module.
let isDef = Attribute.IsDefined(clsType.Module, typeof<DebuggableAttribute>)
// Display the result.
printfn $"""The Debuggable attribute {if isDef then "is" else "is not"} defined for Module {clsType.Module.Name}."""
// If the attribute is defined, display the JIT settings.
if isDef then
// Retrieve the attribute itself.
let dbgAttr =
Attribute.GetCustomAttribute(clsType.Module, typeof<DebuggableAttribute>)
:?> DebuggableAttribute
if dbgAttr <> null then
printfn $"JITTrackingEnabled is {dbgAttr.IsJITTrackingEnabled}."
printfn $"JITOptimizerDisabled is {dbgAttr.IsJITOptimizerDisabled}."
else
printfn "The Debuggable attribute could not be retrieved."
// Output:
// The Debuggable attribute is defined for Module IsDef2CS.exe.
// JITTrackingEnabled is True.
// JITOptimizerDisabled is False.
Imports System.Reflection
Imports System.Diagnostics
' Add the Debuggable attribute to the module.
<Module: Debuggable(True, False)>
Module DemoModule
Sub Main()
' Get the module type information to access its metadata.
Dim modType As Type = GetType(DemoModule)
' See if the Debuggable attribute is defined.
Dim isDef As Boolean = Attribute.IsDefined(modType.Module, _
GetType(DebuggableAttribute))
Dim strDef As String
If isDef = True Then
strDef = "is"
Else
strDef = "is not"
End If
' Display the result
Console.WriteLine("The debuggable attribute {0} defined for " & _
"module {1}.", strDef, modType.Name)
' If the attribute is defined, display the JIT settings.
If isDef = True Then
' Retrieve the attribute itself.
Dim attr As Attribute = _
Attribute.GetCustomAttribute(modType.Module, _
GetType(DebuggableAttribute))
If Not attr Is Nothing And TypeOf attr Is DebuggableAttribute Then
Dim dbgAttr As DebuggableAttribute = _
CType(attr, DebuggableAttribute)
Console.WriteLine("JITTrackingEnabled is {0}.", _
dbgAttr.IsJITTrackingEnabled.ToString())
Console.WriteLine("JITOptimizerDisabled is {0}.", _
dbgAttr.IsJITOptimizerDisabled.ToString())
Else
Console.WriteLine("The Debuggable attribute could " & _
"not be retrieved.")
End If
End If
End Sub
End Module
' Output:
' The debuggable attribute is defined for module DemoModule.
' JITTrackingEnabled is True.
' JITOptimizerDisabled is False.
Применяется к
GetCustomAttribute(MemberInfo, Type)
Извлекает настраиваемый атрибут, примененный к члену типа. Параметры определяют член и тип настраиваемого атрибута для поиска.
public:
static Attribute ^ GetCustomAttribute(System::Reflection::MemberInfo ^ element, Type ^ attributeType);
public static Attribute? GetCustomAttribute (System.Reflection.MemberInfo element, Type attributeType);
public static Attribute GetCustomAttribute (System.Reflection.MemberInfo element, Type attributeType);
static member GetCustomAttribute : System.Reflection.MemberInfo * Type -> Attribute
Public Shared Function GetCustomAttribute (element As MemberInfo, attributeType As Type) As Attribute
Параметры
- element
- MemberInfo
Объект, производный от класса MemberInfo, который описывает член класса (конструктор, событие, поле, метод или свойство).
- attributeType
- Type
Тип или базовый тип искомого настраиваемого атрибута.
Возвращаемое значение
Ссылка на один настраиваемый атрибут типа attributeType
, примененный к element
, или null
, если такого атрибута нет.
Исключения
Параметр element
или attributeType
имеет значение null
.
Тип attributeType
не является производным объекта Attribute.
element
не представляет конструктор, метод, свойство, событие, тип или поле.
Найдено несколько запрошенных атрибутов.
Не удалось загрузить тип настраиваемого атрибута.
Примеры
В следующем примере кода показано использование GetCustomAttribute метода, который принимается MemberInfo в качестве параметра.
using namespace System;
using namespace System::Reflection;
namespace IsDef4CS
{
public ref class TestClass
{
public:
// Assign the Obsolete attribute to a method.
[Obsolete("This method is obsolete. Use Method2 instead.")]
void Method1(){}
void Method2(){}
};
ref class DemoClass
{
public:
static void Main()
{
// Get the class type to access its metadata.
Type^ clsType = TestClass::typeid;
// Get the MethodInfo object for Method1.
MethodInfo^ mInfo = clsType->GetMethod( "Method1" );
// See if the Obsolete attribute is defined for this method.
bool isDef = Attribute::IsDefined( mInfo, ObsoleteAttribute::typeid );
// Display the result.
Console::WriteLine( "The Obsolete Attribute {0} defined for {1} of class {2}.", isDef ? (String^)"is" : "is not", mInfo->Name, clsType->Name );
// If it's defined, display the attribute's message.
if ( isDef )
{
ObsoleteAttribute^ obsAttr = dynamic_cast<ObsoleteAttribute^>(Attribute::GetCustomAttribute( mInfo, ObsoleteAttribute::typeid ));
if ( obsAttr != nullptr )
Console::WriteLine( "The message is: \"{0}\".", obsAttr->Message );
else
Console::WriteLine( "The message could not be retrieved." );
}
}
};
}
/*
* Output:
* The Obsolete Attribute is defined for Method1 of class TestClass.
* The message is: "This method is obsolete. Use Method2 instead.".
*/
using System;
using System.Reflection;
namespace IsDef4CS
{
public class TestClass
{
// Assign the Obsolete attribute to a method.
[Obsolete("This method is obsolete. Use Method2 instead.")]
public void Method1()
{}
public void Method2()
{}
}
public class DemoClass
{
static void Main(string[] args)
{
// Get the class type to access its metadata.
Type clsType = typeof(TestClass);
// Get the MethodInfo object for Method1.
MethodInfo mInfo = clsType.GetMethod("Method1");
// See if the Obsolete attribute is defined for this method.
bool isDef = Attribute.IsDefined(mInfo, typeof(ObsoleteAttribute));
// Display the result.
Console.WriteLine("The Obsolete Attribute {0} defined for {1} of class {2}.",
isDef ? "is" : "is not", mInfo.Name, clsType.Name);
// If it's defined, display the attribute's message.
if (isDef)
{
ObsoleteAttribute obsAttr =
(ObsoleteAttribute)Attribute.GetCustomAttribute(
mInfo, typeof(ObsoleteAttribute));
if (obsAttr != null)
Console.WriteLine("The message is: \"{0}\".",
obsAttr.Message);
else
Console.WriteLine("The message could not be retrieved.");
}
}
}
}
/*
* Output:
* The Obsolete Attribute is defined for Method1 of class TestClass.
* The message is: "This method is obsolete. Use Method2 instead.".
*/
open System
type TestClass() =
// Assign the Obsolete attribute to a method.
[<Obsolete "This method is obsolete. Use Method2 instead.">]
member _.Method1() = ()
member _.Method2() = ()
// Get the class type to access its metadata.
let clsType = typeof<TestClass>
// Get the MethodInfo object for Method1.
let mInfo = clsType.GetMethod "Method1"
// See if the Obsolete attribute is defined for this method.
let isDef = Attribute.IsDefined(mInfo, typeof<ObsoleteAttribute>)
// Display the result.
printfn $"""The Obsolete Attribute {if isDef then "is" else "is not"} defined for {mInfo.Name} of class {clsType.Name}."""
// If it's defined, display the attribute's message.
if isDef then
let obsAttr =
Attribute.GetCustomAttribute(mInfo, typeof<ObsoleteAttribute>)
:?> ObsoleteAttribute
if obsAttr <> null then
printfn $"The message is: \"{obsAttr.Message}\"."
else
printfn "The message could not be retrieved."
// Output:
// The Obsolete Attribute is defined for Method1 of class TestClass.
// The message is: "This method is obsolete. Use Method2 instead.".
Imports System.Reflection
Module DemoModule
Public Class TestClass
' Assign the Obsolete attribute to a method.
<Obsolete("This method is obsolete. Use Method2() instead.")> _
Public Sub Method1()
End Sub
Public Sub Method2()
End Sub
End Class
Sub Main()
' Get the class type to access its metadata.
Dim clsType As Type = GetType(TestClass)
' Get the MethodInfo object for Method1.
Dim mInfo As MethodInfo = clsType.GetMethod("Method1")
' See if the Obsolete attribute is defined for this method.
Dim isDef As Boolean = Attribute.IsDefined(mInfo, _
GetType(ObsoleteAttribute))
Dim strDef As String
If isDef = True Then
strDef = "is"
Else
strDef = "is not"
End If
' Display the results.
Console.WriteLine("The Obsolete attribute {0} defined for " & _
"method {1} of class {2}.", strDef, mInfo.Name, clsType.Name)
' If it's defined, display the attribute's message.
If isDef = True Then
Dim attr As Attribute = Attribute.GetCustomAttribute(mInfo, _
GetType(ObsoleteAttribute))
If Not attr Is Nothing And TypeOf attr Is ObsoleteAttribute Then
Dim obsAttr As ObsoleteAttribute = _
CType(attr, ObsoleteAttribute)
Console.WriteLine("The message is: ""{0}""", obsAttr.Message)
Else
Console.WriteLine("The message could not be retrieved.")
End If
End If
End Sub
End Module
' Output:
' The Obsolete attribute is defined for method Method1 of class TestClass.
' The message is: "This method is obsolete. Use Method2() instead."
Комментарии
Совпадение определяется так же, как описано в разделе Type.IsAssignableFrom"Возвращаемое значение".
Примечание
Начиная с платформа .NET Framework версии 2.0 этот метод возвращает атрибуты безопасности для типов, методов и конструкторов, если атрибуты хранятся в новом формате метаданных. Сборки, скомпилированные с версией 2.0 или более поздней, используют новый формат. Динамические сборки и сборки, скомпилированные с более ранними версиями платформа .NET Framework использовать старый формат XML. См . инструкции по отправке декларативных атрибутов безопасности.
Применяется к
GetCustomAttribute(Assembly, Type)
Извлекает настраиваемый атрибут, примененный к заданной сборке. Параметры определяют сборку и тип настраиваемого атрибута для поиска.
public:
static Attribute ^ GetCustomAttribute(System::Reflection::Assembly ^ element, Type ^ attributeType);
public static Attribute? GetCustomAttribute (System.Reflection.Assembly element, Type attributeType);
public static Attribute GetCustomAttribute (System.Reflection.Assembly element, Type attributeType);
static member GetCustomAttribute : System.Reflection.Assembly * Type -> Attribute
Public Shared Function GetCustomAttribute (element As Assembly, attributeType As Type) As Attribute
Параметры
- element
- Assembly
Объект, производный от класса Assembly, который описывает многократно используемую коллекцию модулей.
- attributeType
- Type
Тип или базовый тип искомого настраиваемого атрибута.
Возвращаемое значение
Ссылка на один настраиваемый атрибут типа attributeType
, примененный к element
, или null
, если такого атрибута нет.
Исключения
Параметр element
или attributeType
имеет значение null
.
Тип attributeType
не является производным объекта Attribute.
Найдено несколько запрошенных атрибутов.
Примеры
В следующем примере кода показано использование GetCustomAttribute метода, который принимается Assembly в качестве параметра.
using namespace System;
using namespace System::Reflection;
// Add an AssemblyDescription attribute
[assembly:AssemblyDescription("A sample description")];
namespace IsDef1CS
{
ref class DemoClass
{
public:
static void Main()
{
// Get the class type to access its metadata.
Type^ clsType = DemoClass::typeid;
// Get the assembly object.
Assembly^ assy = clsType->Assembly;
// Store the assembly's name.
String^ assyName = assy->GetName()->Name;
//Type assyType = assy.GetType();
// See if the Assembly Description is defined.
bool isdef = Attribute::IsDefined( assy, AssemblyDescriptionAttribute::typeid );
if ( isdef )
{
// Affirm that the attribute is defined.
Console::WriteLine( "The AssemblyDescription attribute "
"is defined for assembly {0}.", assyName );
// Get the description attribute itself.
AssemblyDescriptionAttribute^ adAttr = dynamic_cast<AssemblyDescriptionAttribute^>(Attribute::GetCustomAttribute( assy, AssemblyDescriptionAttribute::typeid ));
// Display the description.
if ( adAttr != nullptr )
Console::WriteLine( "The description is \"{0}\".", adAttr->Description );
else
Console::WriteLine( "The description could not "
"be retrieved." );
}
else
Console::WriteLine( "The AssemblyDescription attribute is not "
"defined for assembly {0}.", assyName );
}
};
}
/*
* Output:
* The AssemblyDescription attributeis defined for assembly IsDef1CS.
* The description is "A sample description".
*/
using System;
using System.Reflection;
// Add an AssemblyDescription attribute
[assembly: AssemblyDescription("A sample description")]
namespace IsDef1CS
{
public class DemoClass
{
static void Main(string[] args)
{
// Get the class type to access its metadata.
Type clsType = typeof(DemoClass);
// Get the assembly object.
Assembly assy = clsType.Assembly;
// Store the assembly's name.
String assyName = assy.GetName().Name;
// See if the Assembly Description is defined.
bool isdef = Attribute.IsDefined(assy,
typeof(AssemblyDescriptionAttribute));
if (isdef)
{
// Affirm that the attribute is defined.
Console.WriteLine("The AssemblyDescription attribute " +
"is defined for assembly {0}.", assyName);
// Get the description attribute itself.
AssemblyDescriptionAttribute adAttr =
(AssemblyDescriptionAttribute)Attribute.GetCustomAttribute(
assy, typeof(AssemblyDescriptionAttribute));
// Display the description.
if (adAttr != null)
Console.WriteLine("The description is \"{0}\".",
adAttr.Description);
else
Console.WriteLine("The description could not " +
"be retrieved.");
}
else
Console.WriteLine("The AssemblyDescription attribute is not " +
"defined for assembly {0}.", assyName);
}
}
}
/*
* Output:
* The AssemblyDescription attribute is defined for assembly IsDef1CS.
* The description is "A sample description".
*/
open System
open System.Reflection
// Add an AssemblyDescription attribute
[<assembly: AssemblyDescription "A sample description">]
do ()
type DemoClass = class end
// Get the class type to access its metadata.
let clsType = typeof<DemoClass>
// Get the assembly object.
let assembly = clsType.Assembly;
// Store the assembly's name.
let assemblyName = assembly.GetName().Name
// See if the Assembly Description is defined.
let isdef =
Attribute.IsDefined(assembly, typeof<AssemblyDescriptionAttribute>)
if isdef then
// Affirm that the attribute is defined.
printfn $"The AssemblyDescription attribute is defined for assembly {assemblyName}."
// Get the description attribute itself.
let adAttr =
Attribute.GetCustomAttribute(assembly, typeof<AssemblyDescriptionAttribute>)
:?> AssemblyDescriptionAttribute
// Display the description.
if adAttr <> null then
printfn $"The description is \"{adAttr.Description}\"."
else
printfn $"The description could not be retrieved."
else
printfn $"The AssemblyDescription attribute is not defined for assembly {assemblyName}."
// Output:
// The AssemblyDescription attribute is defined for assembly IsDef1FS.
// The description is "A sample description".
Imports System.Reflection
' Add an AssemblyDescription attribute.
<Assembly: AssemblyDescription("A sample description")>
Module DemoModule
Sub Main()
' Get the assembly for this module.
Dim assy As System.Reflection.Assembly = GetType(DemoModule).Assembly
' Store the assembly name.
Dim assyName As String = assy.GetName().Name
' See if the AssemblyDescription attribute is defined.
If Attribute.IsDefined(assy, GetType(AssemblyDescriptionAttribute)) _
Then
' Affirm that the attribute is defined. Assume the filename of
' this code example is "IsDef1VB".
Console.WriteLine("The AssemblyDescription attribute is " & _
"defined for assembly {0}.", assyName)
' Get the description attribute itself.
Dim attr As Attribute = Attribute.GetCustomAttribute( _
assy, GetType(AssemblyDescriptionAttribute))
' Display the description.
If Not attr Is Nothing And _
TypeOf attr Is AssemblyDescriptionAttribute Then
Dim adAttr As AssemblyDescriptionAttribute = _
CType(attr, AssemblyDescriptionAttribute)
Console.WriteLine("The description is " & _
Chr(34) & "{0}" & Chr(34) & ".", adAttr.Description)
Else
Console.WriteLine("The description could not be retrieved.")
End If
Else
Console.WriteLine("The AssemblyDescription attribute is not " & _
"defined for assembly {0}.", assyName)
End If
End Sub
End Module
' Output:
' The AssemblyDescription attribute is defined for assembly IsDef1VB.
' The description is "A sample description".
Комментарии
Используйте метод, GetCustomAttributes если ожидается возврат нескольких значений или AmbiguousMatchException будет выдано несколько значений.
Примечание
Начиная с платформа .NET Framework версии 2.0 этот метод возвращает атрибуты безопасности, если атрибуты хранятся в новом формате метаданных. Сборки, скомпилированные с версией 2.0 или более поздней, используют новый формат. Динамические сборки и сборки, скомпилированные с более ранними версиями платформа .NET Framework использовать старый формат XML. См . инструкции по отправке декларативных атрибутов безопасности.
Применяется к
GetCustomAttribute(ParameterInfo, Type)
Извлекает настраиваемый атрибут, примененный к параметру метода. Параметры определяют параметр метода и тип настраиваемого атрибута для поиска.
public:
static Attribute ^ GetCustomAttribute(System::Reflection::ParameterInfo ^ element, Type ^ attributeType);
public static Attribute? GetCustomAttribute (System.Reflection.ParameterInfo element, Type attributeType);
public static Attribute GetCustomAttribute (System.Reflection.ParameterInfo element, Type attributeType);
static member GetCustomAttribute : System.Reflection.ParameterInfo * Type -> Attribute
Public Shared Function GetCustomAttribute (element As ParameterInfo, attributeType As Type) As Attribute
Параметры
- element
- ParameterInfo
Объект, являющийся производным от класса ParameterInfo, который описывает параметр члена класса.
- attributeType
- Type
Тип или базовый тип искомого настраиваемого атрибута.
Возвращаемое значение
Ссылка на один настраиваемый атрибут типа attributeType
, примененный к element
, или null
, если такого атрибута нет.
Исключения
Параметр element
или attributeType
имеет значение null
.
Тип attributeType
не является производным объекта Attribute.
Найдено несколько запрошенных атрибутов.
Не удалось загрузить тип настраиваемого атрибута.
Примеры
В следующем примере кода определяется пользовательский класс параметров Attribute и применяется пользовательский атрибут к методу в производном классе и базе производного класса. В примере показано использование GetCustomAttribute метода для возврата атрибутов.
// Example for the Attribute::GetCustomAttribute( ParameterInfo*, Type* )
// method.
using namespace System;
using namespace System::Collections;
using namespace System::Reflection;
namespace NDP_UE_CPP
{
// Define a custom parameter attribute that takes a single message argument.
[AttributeUsage(AttributeTargets::Parameter)]
public ref class ArgumentUsageAttribute: public Attribute
{
protected:
// usageMsg is storage for the attribute message.
String^ usageMsg;
public:
// This is the attribute constructor.
ArgumentUsageAttribute( String^ UsageMsg )
{
this->usageMsg = UsageMsg;
}
property String^ Message
{
// This is the Message property for the attribute.
String^ get()
{
return usageMsg;
}
void set( String^ value )
{
this->usageMsg = value;
}
}
};
public ref class BaseClass
{
public:
// Assign an ArgumentUsage attribute to the strArray parameter.
// Assign a ParamArray attribute to strList.
virtual void TestMethod( [ArgumentUsage("Must pass an array here.")]array<String^>^strArray,
...array<String^>^strList ){}
};
public ref class DerivedClass: public BaseClass
{
public:
// Assign an ArgumentUsage attributes to the strList parameter.
virtual void TestMethod( array<String^>^strArray, [ArgumentUsage(
"Can pass a parameter list or array here.")]array<String^>^strList ) override {}
};
}
int main()
{
Console::WriteLine( "This example of Attribute::GetCustomAttribute( Param"
"eterInfo*, Type* )\ngenerates the following output." );
// Get the class type, and then get the MethodInfo object
// for TestMethod to access its metadata.
Type^ clsType = NDP_UE_CPP::DerivedClass::typeid;
MethodInfo^ mInfo = clsType->GetMethod( "TestMethod" );
// Iterate through the ParameterInfo array for the method parameters.
array<ParameterInfo^>^pInfoArray = mInfo->GetParameters();
if ( pInfoArray != nullptr )
{
// This implements foreach( ParameterInfo* paramInfo in pInfoArray ).
IEnumerator^ myEnum = pInfoArray->GetEnumerator();
while ( myEnum->MoveNext() )
{
ParameterInfo^ paramInfo = safe_cast<ParameterInfo^>(myEnum->Current);
// See if the ParamArray attribute is defined.
bool isDef = Attribute::IsDefined( paramInfo, ParamArrayAttribute::typeid );
if ( isDef )
Console::WriteLine( "\nThe ParamArray attribute is defined for \n"
"parameter {0} of method {1}.", paramInfo->Name, mInfo->Name );
// See if ParamUsageAttribute is defined.
// If so, display a message.
NDP_UE_CPP::ArgumentUsageAttribute^ usageAttr = static_cast<NDP_UE_CPP::ArgumentUsageAttribute^>(Attribute::GetCustomAttribute( paramInfo, NDP_UE_CPP::ArgumentUsageAttribute::typeid ));
if ( usageAttr != nullptr )
{
Console::WriteLine( "\nThe ArgumentUsage attribute is defined for \n"
"parameter {0} of method {1}.", paramInfo->Name, mInfo->Name );
Console::WriteLine( "\n The usage "
"message for {0} is:\n \"{1}\".", paramInfo->Name, usageAttr->Message );
}
}
}
else
Console::WriteLine( "The parameters information could "
"not be retrieved for method {0}.", mInfo->Name );
}
/*
This example of Attribute::GetCustomAttribute( ParameterInfo*, Type* )
generates the following output.
The ArgumentUsage attribute is defined for
parameter strArray of method TestMethod.
The usage message for strArray is:
"Must pass an array here.".
The ParamArray attribute is defined for
parameter strList of method TestMethod.
The ArgumentUsage attribute is defined for
parameter strList of method TestMethod.
The usage message for strList is:
"Can pass a parameter list or array here.".
*/
// Example for the Attribute.GetCustomAttribute( ParameterInfo, Type ) method.
using System;
using System.Reflection;
namespace NDP_UE_CS
{
// Define a custom parameter attribute that takes a single message argument.
[AttributeUsage( AttributeTargets.Parameter )]
public class ArgumentUsageAttribute : Attribute
{
// This is the attribute constructor.
public ArgumentUsageAttribute( string UsageMsg )
{
this.usageMsg = UsageMsg;
}
// usageMsg is storage for the attribute message.
protected string usageMsg;
// This is the Message property for the attribute.
public string Message
{
get { return usageMsg; }
set { usageMsg = value; }
}
}
public class BaseClass
{
// Assign an ArgumentUsage attribute to the strArray parameter.
// Assign a ParamArray attribute to strList using the params keyword.
public virtual void TestMethod(
[ArgumentUsage("Must pass an array here.")]
String[] strArray,
params String[] strList)
{ }
}
public class DerivedClass : BaseClass
{
// Assign an ArgumentUsage attribute to the strList parameter.
// Assign a ParamArray attribute to strList using the params keyword.
public override void TestMethod(
String[] strArray,
[ArgumentUsage("Can pass a parameter list or array here.")]
params String[] strList)
{ }
}
class CustomParamDemo
{
static void Main( )
{
Console.WriteLine(
"This example of Attribute.GetCustomAttribute( Param" +
"eterInfo, Type )\ngenerates the following output." );
// Get the class type, and then get the MethodInfo object
// for TestMethod to access its metadata.
Type clsType = typeof( DerivedClass );
MethodInfo mInfo = clsType.GetMethod("TestMethod");
// Iterate through the ParameterInfo array for the method parameters.
ParameterInfo[] pInfoArray = mInfo.GetParameters();
if (pInfoArray != null)
{
foreach( ParameterInfo paramInfo in pInfoArray )
{
// See if the ParamArray attribute is defined.
bool isDef = Attribute.IsDefined(
paramInfo, typeof(ParamArrayAttribute));
if( isDef )
Console.WriteLine(
"\nThe ParamArray attribute is defined " +
"for \nparameter {0} of method {1}.",
paramInfo.Name, mInfo.Name);
// See if ParamUsageAttribute is defined.
// If so, display a message.
ArgumentUsageAttribute usageAttr = (ArgumentUsageAttribute)
Attribute.GetCustomAttribute(
paramInfo, typeof(ArgumentUsageAttribute) );
if( usageAttr != null )
{
Console.WriteLine(
"\nThe ArgumentUsage attribute is defined " +
"for \nparameter {0} of method {1}.",
paramInfo.Name, mInfo.Name );
Console.WriteLine( "\n The usage " +
"message for {0} is:\n \"{1}\".",
paramInfo.Name, usageAttr.Message);
}
}
}
else
Console.WriteLine(
"The parameters information could not " +
"be retrieved for method {0}.", mInfo.Name);
}
}
}
/*
This example of Attribute.GetCustomAttribute( ParameterInfo, Type )
generates the following output.
The ArgumentUsage attribute is defined for
parameter strArray of method TestMethod.
The usage message for strArray is:
"Must pass an array here.".
The ParamArray attribute is defined for
parameter strList of method TestMethod.
The ArgumentUsage attribute is defined for
parameter strList of method TestMethod.
The usage message for strList is:
"Can pass a parameter list or array here.".
*/
open System
open System.Reflection
// Define a custom parameter attribute that takes a single message argument.
[<AttributeUsage(AttributeTargets.Parameter); AllowNullLiteral>]
type ArgumentUsageAttribute(usageMsg) =
inherit Attribute()
// This is the Message property for the attribute.
member val Message = usageMsg with get, set
type BaseClass() =
// Assign an ArgumentUsage attribute to the strArray parameter.
// Assign a ParamArray attribute to strList.
abstract member TestMethod: strArray: string[] * strList: string[] -> unit
default _.TestMethod([<ArgumentUsage("Must pass an array here.")>] strArray, [<ParamArray>] strList) = ()
type DerivedClass() =
inherit BaseClass()
// Assign an ArgumentUsage attribute to the strList parameter.
// Assign a ParamArray attribute to strList.
override _.TestMethod(
strArray,
[<ArgumentUsage "Can pass a parameter list or array here."; ParamArray>]
strList) = ()
printfn "This example of Attribute.GetCustomAttribute( ParameterInfo, Type )\ngenerates the following output."
// Get the class type, and then get the MethodInfo object
// for TestMethod to access its metadata.
let clsType = typeof<DerivedClass>
let mInfo = clsType.GetMethod "TestMethod"
// Iterate through the ParameterInfo array for the method parameters.
let pInfoArray = mInfo.GetParameters()
if pInfoArray <> null then
for paramInfo in pInfoArray do
// See if the ParamArray attribute is defined.
let isDef = Attribute.IsDefined(paramInfo, typeof<ParamArrayAttribute>)
if isDef then
printfn $"\nThe ParamArray attribute is defined for \nparameter {paramInfo.Name} of method {mInfo.Name}."
// See if ParamUsageAttribute is defined.
// If so, display a message.
let usageAttr =
Attribute.GetCustomAttribute(paramInfo, typeof<ArgumentUsageAttribute>)
:?> ArgumentUsageAttribute
if usageAttr <> null then
printfn $"\nThe ArgumentUsage attribute is defined for \nparameter {paramInfo.Name} of method {mInfo.Name}."
printfn $"\n The usage message for {paramInfo.Name} is:\n \"{usageAttr.Message}\"."
else
printfn $"The parameters information could not be retrieved for method {mInfo.Name}."
// This example of Attribute.GetCustomAttribute(ParameterInfo, Type)
// generates the following output:
// The ArgumentUsage attribute is defined for
// parameter strArray of method TestMethod.
//
// The usage message for strArray is:
// "Must pass an array here.".
//
// The ParamArray attribute is defined for
// parameter strList of method TestMethod.
//
// The ArgumentUsage attribute is defined for
// parameter strList of method TestMethod.
//
// The usage message for strList is:
// "Can pass a parameter list or array here.".
' Example for the Attribute.GetCustomAttribute( ParameterInfo, Type ) method.
Imports System.Reflection
Namespace NDP_UE_VB
' Define a custom parameter attribute that takes a single message argument.
<AttributeUsage(AttributeTargets.Parameter)> _
Public Class ArgumentUsageAttribute
Inherits Attribute
' This is the attribute constructor.
Public Sub New(UsageMsg As String)
Me.usageMsg = UsageMsg
End Sub
' usageMsg is storage for the attribute message.
Protected usageMsg As String
' This is the Message property for the attribute.
Public Property Message() As String
Get
Return usageMsg
End Get
Set
usageMsg = value
End Set
End Property
End Class
Public Class BaseClass
' Assign an ArgumentUsage attribute to the strArray parameter.
' Assign a ParamArray attribute to strList using the ParamArray keyword.
Public Overridable Sub TestMethod( _
<ArgumentUsage("Must pass an array here.")> _
strArray() As String, _
ParamArray strList() As String)
End Sub
End Class
Public Class DerivedClass
Inherits BaseClass
' Assign an ArgumentUsage attribute to the strList parameter.
' Assign a ParamArray attribute to strList using the ParamArray keyword.
Public Overrides Sub TestMethod( _
strArray() As String, _
<ArgumentUsage("Can pass a parameter list or array here.")> _
ParamArray strList() As String)
End Sub
End Class
Module CustomParamDemo
Sub Main()
Console.WriteLine( _
"This example of Attribute.GetCustomAttribute" & _
"( ParameterInfo, Type )" & vbCrLf & _
"generates the following output.")
' Get the class type, and then get the MethodInfo object
' for TestMethod to access its metadata.
Dim clsType As Type = GetType(DerivedClass)
Dim mInfo As MethodInfo = clsType.GetMethod("TestMethod")
' Iterate through the ParameterInfo array for the method parameters.
Dim pInfoArray As ParameterInfo() = mInfo.GetParameters()
If Not (pInfoArray Is Nothing) Then
Dim paramInfo As ParameterInfo
For Each paramInfo In pInfoArray
' See if the ParamArray attribute is defined.
Dim isDef As Boolean = _
Attribute.IsDefined(paramInfo, _
GetType(ParamArrayAttribute))
If isDef Then
Console.WriteLine( vbCrLf & _
"The ParamArray attribute is defined for " & _
vbCrLf & "parameter {0} of method {1}.", _
paramInfo.Name, mInfo.Name)
End If
' See if ParamUsageAttribute is defined.
' If so, display a message.
Dim usageAttr As ArgumentUsageAttribute = _
Attribute.GetCustomAttribute(paramInfo, _
GetType(ArgumentUsageAttribute))
If Not (usageAttr Is Nothing) Then
Console.WriteLine( vbCrLf & "The " & _
"ArgumentUsage attribute is defined for " & _
vbCrLf & "parameter {0} of method {1}.", _
paramInfo.Name, mInfo.Name)
Console.WriteLine( vbCrLf & _
" The usage message for {0} is: " & _
vbCrLf & " ""{1}"".", _
paramInfo.Name, usageAttr.Message)
End If
Next paramInfo
Else
Console.WriteLine( _
"The parameters information could " & _
"not be retrieved for method {0}.", mInfo.Name)
End If
End Sub
End Module ' DemoClass
End Namespace ' NDP_UE_VB
' This example of Attribute.GetCustomAttribute( ParameterInfo, Type )
' generates the following output.
'
' The ArgumentUsage attribute is defined for
' parameter strArray of method TestMethod.
'
' The usage message for strArray is:
' "Must pass an array here.".
'
' The ParamArray attribute is defined for
' parameter strList of method TestMethod.
'
' The ArgumentUsage attribute is defined for
' parameter strList of method TestMethod.
'
' The usage message for strList is:
' "Can pass a parameter list or array here.".
Комментарии
Если element
представляет параметр в методе производного типа, возвращаемое значение включает наследуемые настраиваемые атрибуты, применяемые к тому же параметру в переопределенных базовых методах.