Module.ResolveMethod Metódus
Definíció
Fontos
Egyes információk olyan, kiadás előtti termékekre vonatkoznak, amelyek a kiadásig még jelentősen módosulhatnak. A Microsoft nem vállal kifejezett vagy törvényi garanciát az itt megjelenő információért.
A metaadat-jogkivonat által azonosított metódust adja vissza.
Túlterhelések
| Name | Description |
|---|---|
| ResolveMethod(Int32, Type[], Type[]) |
A megadott metaadat-jogkivonat által azonosított metódust vagy konstruktort adja vissza a megadott általános típusparaméterek által meghatározott környezetben. |
| ResolveMethod(Int32) |
A megadott metaadat-jogkivonat által azonosított metódust vagy konstruktort adja vissza. |
ResolveMethod(Int32, Type[], Type[])
- Forrás:
- Module.cs
- Forrás:
- Module.cs
- Forrás:
- Module.cs
- Forrás:
- Module.cs
- Forrás:
- Module.cs
A megadott metaadat-jogkivonat által azonosított metódust vagy konstruktort adja vissza a megadott általános típusparaméterek által meghatározott környezetben.
public:
virtual System::Reflection::MethodBase ^ ResolveMethod(int metadataToken, cli::array <Type ^> ^ genericTypeArguments, cli::array <Type ^> ^ genericMethodArguments);public:
System::Reflection::MethodBase ^ ResolveMethod(int metadataToken, cli::array <Type ^> ^ genericTypeArguments, cli::array <Type ^> ^ genericMethodArguments);[System.Diagnostics.CodeAnalysis.RequiresUnreferencedCode("Trimming changes metadata tokens")]
public virtual System.Reflection.MethodBase? ResolveMethod(int metadataToken, Type[]? genericTypeArguments, Type[]? genericMethodArguments);public virtual System.Reflection.MethodBase ResolveMethod(int metadataToken, Type[] genericTypeArguments, Type[] genericMethodArguments);public virtual System.Reflection.MethodBase? ResolveMethod(int metadataToken, Type[]? genericTypeArguments, Type[]? genericMethodArguments);public System.Reflection.MethodBase ResolveMethod(int metadataToken, Type[] genericTypeArguments, Type[] genericMethodArguments);[<System.Diagnostics.CodeAnalysis.RequiresUnreferencedCode("Trimming changes metadata tokens")>]
abstract member ResolveMethod : int * Type[] * Type[] -> System.Reflection.MethodBase
override this.ResolveMethod : int * Type[] * Type[] -> System.Reflection.MethodBaseabstract member ResolveMethod : int * Type[] * Type[] -> System.Reflection.MethodBase
override this.ResolveMethod : int * Type[] * Type[] -> System.Reflection.MethodBasemember this.ResolveMethod : int * Type[] * Type[] -> System.Reflection.MethodBasePublic Overridable Function ResolveMethod (metadataToken As Integer, genericTypeArguments As Type(), genericMethodArguments As Type()) As MethodBasePublic Function ResolveMethod (metadataToken As Integer, genericTypeArguments As Type(), genericMethodArguments As Type()) As MethodBaseParaméterek
- metadataToken
- Int32
Metaadat-jogkivonat, amely azonosít egy metódust vagy konstruktort a modulban.
- genericTypeArguments
- Type[]
Objektumtömb Type , amely annak a típusnak az általános típusú argumentumait jelöli, amelyben a jogkivonat hatókörben van, vagy null ha ez a típus nem általános.
- genericMethodArguments
- Type[]
Objektumtömb Type , amely annak a metódusnak az általános típusú argumentumait jelöli, amelyben a jogkivonat hatókörben van, vagy null ha ez a metódus nem általános.
Válaszok
A MethodBase megadott metaadat-jogkivonat által azonosított metódust képviselő objektum.
- Attribútumok
Kivételek
metadataToken nem egy metódus vagy konstruktor tokenje az aktuális modul hatókörében.
-vagy-
metadataToken
MethodSpec olyan aláírás, amelynek az aláírása elemtípust var (egy általános típus típusparaméterét) vagy mvar (egy általános metódus típusparaméterét) tartalmaz, és a szükséges általános típusargumentumok egyik vagy mindkettőhöz genericTypeArgumentsgenericMethodArgumentsnem lettek megadva.
metadataToken nem érvényes jogkivonat az aktuális modul hatókörében.
Példák
Az alábbi példa bemutatja, hogyan oldhatja fel a metaadat-jogkivonatokat a ResolveMethod metódus két túlterhelésével általános és nem általános környezetekben lévő híváshelyekről.
A példakód két általános típust határoz meg, G1<Tg1> amelyek G2<Tg2>mindegyike általános metódussal rendelkezik.
G1<Tg1> egy nem általános metódussal is rendelkezik, amely a paraméter típusparaméterét Tg1 használja. A típusban GM2<Tgm2> szereplő általános metódus G2<Tg2> több metódushívást tartalmaz:
1. eset: Az általános metódus
GM1<Tgm1>meghívása a típusparaméterekG2<Tg2>ésGM2<Tgm2>a típusargumentumok használatával történik. Más szóval az úgynevezett metódus paramétertípusai azoktól a típusoktól függenek, amelyek egy zárt általános típus létrehozásához használatosak a típusdefinícióbanG2<Tg2>.2. eset: A rendszer meghívja a nem általános metódust
M1. A metódus paramétere a definiáló típus típusparaméterét használja,G1<Tg1>amelyet ebben az esetben a beágyazási típusG2<Tg2>típusparamétere vált fel.3. eset: A rendszer meghívja az általános metódust
GM1<Tgm1>Int32 , megadja az Object általános típus és az általános metódus típusargumentumait. Ez a metódushívás nem függ a beágyazási típus vagy metódus típusparamétereitől.4. eset: A rendszer meghívja az
M1osztály nem általános metódusátExample. Ez a metódushívás nem függ a beágyazási típus vagy metódus típusparamétereitől.
A példa emellett a nem általános Example osztályt is meghatározza. Ez az osztály egy metódussal M rendelkezik, amely egy általános metódus meghívását kezdeményezi.
- 5. eset: A rendszer meghívja az általános metódust
GM1<Tgm1>Int32 , megadja az Object általános típus és az általános metódus típusargumentumait. A metódus környezete nem foglal magában általános típust vagy általános metódust.
A példa minden esetben először létrehoz egy MethodInfo , az úgynevezett metódust képviselőt, majd a metódus túlterhelésével oldja fel a ResolveMethod(Int32, Type[], Type[]) jogkivonatot a metódusok Type.GetGenericArguments és MethodInfo.GetGenericArguments a paraméterek értékeinek lekéréséhez genericTypeArgumentsgenericMethodArguments . Ez a technika minden esetben működik, mivel a metódusok nem általános környezetekben térnek vissza Type.EmptyTypes . A példa összehasonlítja a feloldott MethodInfo és a létrehozott MethodInfo.
A példa ezután a metódus túlterhelésével ResolveMethod(Int32) próbálja feloldani a jogkivonatot. Ez a 3., 4. és 5. esetben működik, mivel a metódushívások nem függnek az általános környezettől. Az 1. és a 2. esetben kivétel történik, mert nincs elegendő információ a jogkivonat feloldásához.
A metaadat-jogkivonat értékei szigorúan enumerálásként vannak kódva. Ha módosítja ezt a példakódot, a jogkivonat értékei valószínűleg megváltoznak. Az új tokenértékek meghatározásához fordítsa le a kódot, és használja a Ildasm.exe a /TOKENS beállítással a szerelvény vizsgálatához. A jogkivonatok a hívási pontokon találhatók. Szúrja be az új értékeket az enumerálásba, és hajtsa újra a példát.
using System;
using System.Reflection;
namespace ResolveMethodExample
{
// Metadata tokens for the MethodRefs that are to be resolved.
// If you change this program, some or all of these metadata tokens might
// change. The new token values can be discovered by compiling the example
// and examining the assembly with Ildasm.exe, using the /TOKENS option.
// Recompile the program after correcting the token values.
enum Tokens
{
Case1 = 0x2b000001,
Case2 = 0x0A000006,
Case3 = 0x2b000002,
Case4 = 0x06000006,
Case5 = 0x2b000002
}
class G1<Tg1>
{
public void GM1<Tgm1> (Tg1 param1, Tgm1 param2) {}
public void M1(Tg1 param) {}
}
class G2<Tg2>
{
public void GM2<Tgm2> (Tg2 param1, Tgm2 param2)
{
// Case 1: A generic method call that depends on its generic
// context, because it uses the type parameters of the enclosing
// generic type G2 and the enclosing generic method GM2. The token
// for the MethodSpec is Tokens.Case1.
G1<Tg2> g = new G1<Tg2>();
g.GM1<Tgm2>(param1, param2);
// Case 2: A non-generic method call that depends on its generic
// context, because it uses the type parameter of the enclosing
// generic type G2. The token for the MemberRef is Tokens.Case2.
g.M1(param1);
// Case 3: A generic method call that does not depend on its generic
// context, because it does not use type parameters of the enclosing
// generic type or method. The token for the MethodSpec is Tokens.Case3.
G1<int> gi = new G1<int>();
gi.GM1<object>(42, new Object());
// Case 4: A non-generic method call that does not depend on its
// generic context, because it does not use the type parameters of the
// enclosing generic type or method. The token for the MethodDef is
// Tokens.Case4.
Example e = new Example();
e.M();
}
}
class Example
{
public void M()
{
G1<int> g = new G1<int>();
// Case 5: A generic method call that does not have any generic
// context. The token for the MethodSpec is Tokens.Case5.
g.GM1<object>(42, new Object());
}
static void Main ()
{
Module mod = typeof(Example).Assembly.ManifestModule;
MethodInfo miResolved2 = null;
// Case 1: A generic method call that is dependent on its generic context.
//
// Create and display a MethodInfo representing the MethodSpec of the
// generic method g.GM1<Tgm2>() that is called in G2<Tg2>.GM2<Tgm2>().
Type t = typeof(G1<>).MakeGenericType(typeof(G2<>).GetGenericArguments());
MethodInfo mi = typeof(G2<>).GetMethod("GM2");
MethodInfo miTest = t.GetMethod("GM1").MakeGenericMethod(mi.GetGenericArguments());
Console.WriteLine("\nCase 1:\n{0}", miTest);
// Resolve the MethodSpec token for method G1<Tg2>.GM1<Tgm2>(), which
// is called in method G2<Tg2>.GM2<Tgm2>(). The GetGenericArguments method
// must be used to obtain the context for resolving the method.
MethodInfo miResolved = (MethodInfo) mod.ResolveMethod(
(int)Tokens.Case1,
typeof(G2<>).GetGenericArguments(),
typeof(G2<>).GetMethod("GM2").GetGenericArguments());
Console.WriteLine(miResolved);
Console.WriteLine("Is the resolved method the same? {0}", miResolved == miTest);
// The overload that doesn't specify generic context throws an exception
// because there is insufficient context to resolve the token.
try
{
miResolved2 = (MethodInfo) mod.ResolveMethod((int)Tokens.Case1);
}
catch (Exception ex)
{
Console.WriteLine("{0}: {1}", ex.GetType(), ex.Message);
}
// Case 2: A non-generic method call that is dependent on its generic context.
//
// Create and display a MethodInfo representing the MemberRef of the
// non-generic method g.M1() that is called in G2<Tg2>.GM2<Tgm2>().
t = typeof(G1<>).MakeGenericType(typeof(G2<>).GetGenericArguments());
miTest = t.GetMethod("M1");
Console.WriteLine("\nCase 2:\n{0}", miTest);
// Resolve the MemberRef token for method G1<Tg2>.M1(), which is
// called in method G2<Tg2>.GM2<Tgm2>(). The GetGenericArguments method
// must be used to obtain the context for resolving the method, because
// the method parameter comes from the generic type G1, and the type
// argument, Tg2, comes from the generic type that encloses the call.
// There is no enclosing generic method, so the value Type.EmptyTypes
// could be passed for the genericMethodArguments parameter.
miResolved = (MethodInfo) mod.ResolveMethod(
(int)Tokens.Case2,
typeof(G2<>).GetGenericArguments(),
typeof(G2<>).GetMethod("GM2").GetGenericArguments());
Console.WriteLine(miResolved);
Console.WriteLine("Is the resolved method the same? {0}", miResolved == miTest);
// The overload that doesn't specify generic context throws an exception
// because there is insufficient context to resolve the token.
try
{
miResolved2 = (MethodInfo) mod.ResolveMethod((int)Tokens.Case2);
}
catch (Exception ex)
{
Console.WriteLine("{0}: {1}", ex.GetType(), ex.Message);
}
// Case 3: A generic method call that is independent of its generic context.
//
// Create and display a MethodInfo representing the MethodSpec of the
// generic method gi.GM1<object>() that is called in G2<Tg2>.GM2<Tgm2>().
mi = typeof(G1<int>).GetMethod("GM1");
miTest = mi.MakeGenericMethod(new Type[] { typeof(object) });
Console.WriteLine("\nCase 3:\n{0}", miTest);
// Resolve the token for method G1<int>.GM1<object>(), which is called
// in G2<Tg2>.GM2<Tgm2>(). The GetGenericArguments method is used to
// obtain the context for resolving the method, but the method call in
// this case does not use type parameters of the enclosing type or
// method, so Type.EmptyTypes could be used for both arguments.
miResolved = (MethodInfo) mod.ResolveMethod(
(int)Tokens.Case3,
typeof(G2<>).GetGenericArguments(),
typeof(G2<>).GetMethod("GM2").GetGenericArguments());
Console.WriteLine(miResolved);
Console.WriteLine("Is the resolved method the same? {0}", miResolved == miTest);
// The method call in this case does not depend on the enclosing generic
// context, so the token can also be resolved by the simpler overload.
miResolved2 = (MethodInfo) mod.ResolveMethod((int)Tokens.Case3);
// Case 4: A non-generic method call that is independent of its generic context.
//
// Create and display a MethodInfo representing the MethodDef of the
// method e.M() that is called in G2<Tg2>.GM2<Tgm2>().
miTest = typeof(Example).GetMethod("M");
Console.WriteLine("\nCase 4:\n{0}", miTest);
// Resolve the token for method Example.M(), which is called in
// G2<Tg2>.GM2<Tgm2>(). The GetGenericArguments method is used to
// obtain the context for resolving the method, but the non-generic
// method call does not use type parameters of the enclosing type or
// method, so Type.EmptyTypes could be used for both arguments.
miResolved = (MethodInfo) mod.ResolveMethod(
(int)Tokens.Case4,
typeof(G2<>).GetGenericArguments(),
typeof(G2<>).GetMethod("GM2").GetGenericArguments());
Console.WriteLine(miResolved);
Console.WriteLine("Is the resolved method the same? {0}", miResolved == miTest);
// The method call in this case does not depend on any enclosing generic
// context, so the token can also be resolved by the simpler overload.
miResolved2 = (MethodInfo) mod.ResolveMethod((int)Tokens.Case4);
// Case 5: Generic method call in a non-generic context.
//
// Create and display a MethodInfo representing the MethodRef of the
// closed generic method g.GM1<object>() that is called in Example.M().
mi = typeof(G1<int>).GetMethod("GM1");
miTest = mi.MakeGenericMethod(new Type[] { typeof(object) });
Console.WriteLine("\nCase 5:\n{0}", miTest);
// Resolve the token for method G1<int>.GM1<object>(), which is called
// in method Example.M(). The GetGenericArguments method is used to
// obtain the context for resolving the method, but the enclosing type
// and method are not generic, so Type.EmptyTypes could be used for
// both arguments.
miResolved = (MethodInfo) mod.ResolveMethod(
(int)Tokens.Case5,
typeof(Example).GetGenericArguments(),
typeof(Example).GetMethod("M").GetGenericArguments());
Console.WriteLine(miResolved);
Console.WriteLine("Is the resolved method the same? {0}", miResolved == miTest);
// The method call in this case does not depend on any enclosing generic
// context, so the token can also be resolved by the simpler overload.
miResolved2 = (MethodInfo) mod.ResolveMethod((int)Tokens.Case5);
}
}
}
/* This example produces the following output:
Case 1:
Void GM1[Tgm2](Tg2, Tgm2)
Void GM1[Tgm2](Tg2, Tgm2)
Is the resolved method the same? True
System.ArgumentException: A BadImageFormatException has been thrown while parsing the signature. This is likely due to lack of a generic context. Ensure genericTypeArguments and genericMethodArguments are provided and contain enough context.
Case 2:
Void M1(Tg2)
Void M1(Tg2)
Is the resolved method the same? True
System.ArgumentException: A BadImageFormatException has been thrown while parsing the signature. This is likely due to lack of a generic context. Ensure genericTypeArguments and genericMethodArguments are provided and contain enough context.
Case 3:
Void GM1[Object](Int32, System.Object)
Void GM1[Object](Int32, System.Object)
Is the resolved method the same? True
Case 4:
Void M()
Void M()
Is the resolved method the same? True
Case 5:
Void GM1[Object](Int32, System.Object)
Void GM1[Object](Int32, System.Object)
Is the resolved method the same? True
*/
Imports System.Reflection
Namespace ResolveMethodExample
' Metadata tokens for the MethodRefs that are to be resolved.
' If you change this program, some or all of these metadata tokens might
' change. The new token values can be discovered by compiling the example
' and examining the assembly with Ildasm.exe, using the /TOKENS option.
' Recompile the program after correcting the token values.
Enum Tokens
Case1 = &H2B000003
Case2 = &HA00001F
Case3 = &H2B000004
Case4 = &H6000017
Case5 = &H2B000004
End Enum
Class G1(Of Tg1)
Public Sub GM1(Of Tgm1) (ByVal param1 As Tg1, ByVal param2 As Tgm1)
End Sub
Public Sub M1(ByVal param As Tg1)
End Sub
End Class
Class G2(Of Tg2)
Public Sub GM2(Of Tgm2) (ByVal param1 As Tg2, ByVal param2 As Tgm2)
' Case 1: A generic method call that depends on its generic
' context, because it uses the type parameters of the enclosing
' generic type G2 and the enclosing generic method GM2. The token
' for the MethodSpec is Tokens.Case1.
Dim g As New G1(Of Tg2)()
g.GM1(Of Tgm2)(param1, param2)
' Case 2: A non-generic method call that depends on its generic
' context, because it uses the type parameter of the enclosing
' generic type G2. The token for the MemberRef is Tokens.Case2.
g.M1(param1)
' Case 3: A generic method call that does not depend on its generic
' context, because it does not use type parameters of the enclosing
' generic type or method. The token for the MethodSpec is Tokens.Case3.
Dim gi As New G1(Of Integer)()
gi.GM1(Of Object)(42, New Object())
' Case 4: A non-generic method call that does not depend on its
' generic context, because it does not use the type parameters of the
' enclosing generic type or method. The token for the MethodDef is
' Tokens.Case4.
Dim e As New Example()
e.M()
End Sub
End Class
Class Example
Public Sub M()
Dim g As New G1(Of Integer)()
' Case 5: A generic method call that does not have any generic
' context. The token for the MethodSpec is Tokens.Case5.
g.GM1(Of Object)(42, New Object())
End Sub
Shared Sub Main()
Dim m As [Module] = GetType(Example).Assembly.ManifestModule
Dim miResolved2 As MethodInfo = Nothing
' Case 1: A generic method call that is dependent on its generic context.
'
' Create and display a MethodInfo representing the MethodSpec of the
' generic method g.GM1(Of Tgm2)() that is called in G2(Of Tg2).GM2(Of Tgm2)().
Dim t As Type = GetType(G1(Of )).MakeGenericType(GetType(G2(Of )).GetGenericArguments())
Dim mi As MethodInfo = GetType(G2(Of )).GetMethod("GM2")
Dim miTest As MethodInfo = t.GetMethod("GM1").MakeGenericMethod(mi.GetGenericArguments())
Console.WriteLine(vbCrLf & "Case 1:" & vbCrLf & miTest.ToString())
' Resolve the MethodSpec token for method G1(Of Tg2).GM1(Of Tgm2)(), which
' is called in method G2(Of Tg2).GM2(Of Tgm2)(). The GetGenericArguments
' method must be used to obtain the context for resolving the method.
Dim miResolved As MethodInfo = CType(m.ResolveMethod( _
CInt(Tokens.Case1), _
GetType(G2(Of )).GetGenericArguments(), _
GetType(G2(Of )).GetMethod("GM2").GetGenericArguments()), _
MethodInfo)
Console.WriteLine(miResolved)
Console.WriteLine("Is the resolved method the same? {0}", miResolved Is miTest)
' The overload that doesn't specify generic context throws an exception
' because there is insufficient context to resolve the token.
Try
miResolved2 = CType(m.ResolveMethod(CInt(Tokens.Case1)), MethodInfo)
Catch ex As Exception
Console.WriteLine("{0}: {1}", ex.GetType(), ex.Message)
End Try
' Case 2: A non-generic method call that is dependent on its generic context.
'
' Create and display a MethodInfo representing the MemberRef of the
' non-generic method g.M1() that is called in G2(Of Tg2).GM2(Of Tgm2)().
t = GetType(G1(Of )).MakeGenericType(GetType(G2(Of )).GetGenericArguments())
miTest = t.GetMethod("M1")
Console.WriteLine(vbCrLf & "Case 2:" & vbCrLf & miTest.ToString())
' Resolve the MemberRef token for method G1(Of Tg2).M1(), which is
' called in method G2(Of Tg2).GM2(Of Tgm2)(). The GetGenericArguments
' method must be used to obtain the context for resolving the method,
' because the method parameter comes from the generic type G1, and the
' because argument, Tg2, comes from the generic type that encloses the
' call. There is no enclosing generic method, so Type.EmptyTypes could
' be passed for the genericMethodArguments parameter.
miResolved = CType(m.ResolveMethod( _
CInt(Tokens.Case2), _
GetType(G2(Of )).GetGenericArguments(), _
GetType(G2(Of )).GetMethod("GM2").GetGenericArguments()), _
MethodInfo)
Console.WriteLine(miResolved)
Console.WriteLine("Is the resolved method the same? {0}", miResolved Is miTest)
' The overload that doesn't specify generic context throws an exception
' because there is insufficient context to resolve the token.
Try
miResolved2 = CType(m.ResolveMethod(CInt(Tokens.Case2)), MethodInfo)
Catch ex As Exception
Console.WriteLine("{0}: {1}", ex.GetType(), ex.Message)
End Try
' Case 3: A generic method call that is independent of its generic context.
'
' Create and display a MethodInfo representing the MethodSpec of the
' generic method gi.GM1(Of Object)() that is called in G2(Of Tg2).GM2(Of Tgm2)().
mi = GetType(G1(Of Integer)).GetMethod("GM1")
miTest = mi.MakeGenericMethod(New Type() {GetType(Object)})
Console.WriteLine(vbCrLf & "Case 3:" & vbCrLf & miTest.ToString())
' Resolve the token for method G1(Of Integer).GM1(Of Object)(), which is
' calledin G2(Of Tg2).GM2(Of Tgm2)(). The GetGenericArguments method is
' used to obtain the context for resolving the method, but the method call
' in this case does not use type parameters of the enclosing type or
' method, so Type.EmptyTypes could be used for both arguments.
miResolved = CType(m.ResolveMethod( _
CInt(Tokens.Case3), _
GetType(G2(Of )).GetGenericArguments(), _
GetType(G2(Of )).GetMethod("GM2").GetGenericArguments()), _
MethodInfo)
Console.WriteLine(miResolved)
Console.WriteLine("Is the resolved method the same? {0}", miResolved Is miTest)
' The method call in this case does not depend on the enclosing generic
' context, so the token can also be resolved by the simpler overload.
miResolved2 = CType(m.ResolveMethod(CInt(Tokens.Case3)), MethodInfo)
' Case 4: A non-generic method call that is independent of its generic context.
'
' Create and display a MethodInfo representing the MethodDef of the
' method e.M() that is called in G2(Of Tg2).GM2(Of Tgm2)().
miTest = GetType(Example).GetMethod("M")
Console.WriteLine(vbCrLf & "Case 4:" & vbCrLf & miTest.ToString())
' Resolve the token for method Example.M(), which is called in
' G2(Of Tg2).GM2(Of Tgm2)(). The GetGenericArguments method is used to
' obtain the context for resolving the method, but the non-generic
' method call does not use type parameters of the enclosing type or
' method, so Type.EmptyTypes could be used for both arguments.
miResolved = CType(m.ResolveMethod( _
CInt(Tokens.Case4), _
GetType(G2(Of )).GetGenericArguments(), _
GetType(G2(Of )).GetMethod("GM2").GetGenericArguments()), _
MethodInfo)
Console.WriteLine(miResolved)
Console.WriteLine("Is the resolved method the same? {0}", miResolved Is miTest)
' The method call in this case does not depend on any enclosing generic
' context, so the token can also be resolved by the simpler overload.
miResolved2 = CType(m.ResolveMethod(CInt(Tokens.Case4)), MethodInfo)
' Case 5: Generic method call in a non-generic context.
'
' Create and display a MethodInfo representing the MethodRef of the
' closed generic method g.GM1(Of Object)() that is called in Example.M().
mi = GetType(G1(Of Integer)).GetMethod("GM1")
miTest = mi.MakeGenericMethod(New Type() {GetType(Object)})
Console.WriteLine(vbCrLf & "Case 5:" & vbCrLf & miTest.ToString())
' Resolve the token for method G1(Of Integer).GM1(Of Object)(), which is
' called in method Example.M(). The GetGenericArguments method is used to
' obtain the context for resolving the method, but the enclosing type
' and method are not generic, so Type.EmptyTypes could be used for
' both arguments.
miResolved = CType(m.ResolveMethod( _
CInt(Tokens.Case5), _
GetType(Example).GetGenericArguments(), _
GetType(Example).GetMethod("M").GetGenericArguments()), _
MethodInfo)
Console.WriteLine(miResolved)
Console.WriteLine("Is the resolved method the same? {0}", miResolved Is miTest)
' The method call in this case does not depend on any enclosing generic
' context, so the token can also be resolved by the simpler overload.
miResolved2 = CType(m.ResolveMethod(CInt(Tokens.Case5)), MethodInfo)
End Sub
End Class
End Namespace
' This example produces the following output:
'
'Case 1:
'Void GM1[Tgm2](Tg2, Tgm2)
'Void GM1[Tgm2](Tg2, Tgm2)
'Is the resolved method the same? True
'System.ArgumentException: A BadImageFormatException has been thrown while parsing the signature. This is likely due to lack of a generic context. Ensure genericTypeArguments and genericMethodArguments are provided and contain enough context.
'
'Case 2:
'Void M1(Tg2)
'Void M1(Tg2)
'Is the resolved method the same? True
'System.ArgumentException: A BadImageFormatException has been thrown while parsing the signature. This is likely due to lack of a generic context. Ensure genericTypeArguments and genericMethodArguments are provided and contain enough context.
'
'Case 3:
'Void GM1[Object](Int32, System.Object)
'Void GM1[Object](Int32, System.Object)
'Is the resolved method the same? True
'
'Case 4:
'Void M()
'Void M()
'Is the resolved method the same? True
'
'Case 5:
'Void GM1[Object](Int32, System.Object)
'Void GM1[Object](Int32, System.Object)
'Is the resolved method the same? True
'
Megjegyzések
Type.GetGenericArguments A hatókörben lévő típus metadataToken metódusával szerezze be a általános típusargumentumait genericTypeArgumentstartalmazó tömböt. Használja a MethodInfo.GetGenericArguments metódust azon a metóduson, amely metadataToken hatókörben van, és szerezze be a általános típusú argumentumait genericMethodArgumentstartalmazó tömböt. Ezeket az argumentumokat mindig biztonságos megadni, még akkor is, ha nincs rájuk szükség.
Note
A metaadat-jogkivonatokkal kapcsolatos információk a Common Language Infrastructure (CLI) dokumentációjában találhatók, különösen a "Partition II: Metadata Definition and Semantics" (Partition II: Metadata Definition and Semantics) című témakörben. További információ: ECMA 335 Common Language Infrastructure (CLI).
A következőre érvényes:
ResolveMethod(Int32)
- Forrás:
- Module.cs
- Forrás:
- Module.cs
- Forrás:
- Module.cs
- Forrás:
- Module.cs
- Forrás:
- Module.cs
A megadott metaadat-jogkivonat által azonosított metódust vagy konstruktort adja vissza.
public:
System::Reflection::MethodBase ^ ResolveMethod(int metadataToken);[System.Diagnostics.CodeAnalysis.RequiresUnreferencedCode("Trimming changes metadata tokens")]
public System.Reflection.MethodBase? ResolveMethod(int metadataToken);public System.Reflection.MethodBase ResolveMethod(int metadataToken);public System.Reflection.MethodBase? ResolveMethod(int metadataToken);[<System.Diagnostics.CodeAnalysis.RequiresUnreferencedCode("Trimming changes metadata tokens")>]
member this.ResolveMethod : int -> System.Reflection.MethodBasemember this.ResolveMethod : int -> System.Reflection.MethodBasePublic Function ResolveMethod (metadataToken As Integer) As MethodBaseParaméterek
- metadataToken
- Int32
Metaadat-jogkivonat, amely azonosít egy metódust vagy konstruktort a modulban.
Válaszok
A MethodBase megadott metaadat-jogkivonat által azonosított metódust vagy konstruktort képviselő objektum.
- Attribútumok
Kivételek
metadataToken nem egy metódus vagy konstruktor tokenje az aktuális modul hatókörében.
-vagy-
metadataToken olyan aláírás, MethodSpec amelynek az aláírása elemtípust var (általános típusú típusparamétert) vagy mvar (általános metódus típusparaméterét) tartalmaz.
metadataToken nem érvényes jogkivonat az aktuális modul hatókörében.
Példák
Az alábbi példa bemutatja, hogyan oldhatja fel a metaadat-jogkivonatokat a ResolveMethod metódus két túlterhelésével általános és nem általános környezetekben lévő híváshelyekről.
A példakód két általános típust határoz meg: G1<Tg1> és G2<Tg2> (G1(Of Tg1) és G2(Of Tg2) Visual Basic), amelyek mindegyike általános metódussal rendelkezik.
G1<Tg1> egy nem általános metódussal is rendelkezik, amely a paraméter típusparaméterét Tg1 használja. A típusban GM2<Tgm2> szereplő általános metódus G2<Tg2> több metódushívást tartalmaz:
1. eset: Az általános metódus
GM1<Tgm1>meghívása a típusparaméterekG2<Tg2>ésGM2<Tgm2>a típusargumentumok használatával történik. Más szóval az úgynevezett metódus paramétertípusai azoktól a típusoktól függenek, amelyek egy zárt általános típus létrehozásához használatosak a típusdefinícióbanG2<Tg2>.2. eset: A rendszer meghívja a nem általános metódust
M1. A metódus paramétere a definiáló típus típusparaméterét használja,G1<Tg1>amelyet ebben az esetben a beágyazási típusG2<Tg2>típusparamétere vált fel.3. eset: A rendszer meghívja az általános metódust
GM1<Tgm1>Int32 , megadja az Object általános típus és az általános metódus típusargumentumait. Ez a metódushívás nem függ a beágyazási típus vagy metódus típusparamétereitől.4. eset: A rendszer meghívja az
M1osztály nem általános metódusátExample. Ez a metódushívás nem függ a beágyazási típus vagy metódus típusparamétereitől.
A példa emellett a nem általános Example osztályt is meghatározza. Ez az osztály olyan metódussal M rendelkezik, amely meghív egy általános metódust:
- 5. eset: A rendszer meghívja az általános metódust
GM1Int32 , megadja az Object általános típus és az általános metódus típusargumentumait. A metódus környezete nem foglal magában általános típust vagy általános metódust.
A példa minden esetben először létrehoz egy MethodInfo , az úgynevezett metódust képviselőt, majd a metódus túlterhelésével oldja fel a ResolveMethod(Int32, Type[], Type[]) jogkivonatot a metódusok Type.GetGenericArguments és MethodInfo.GetGenericArguments a paraméterek értékeinek lekéréséhez genericTypeArgumentsgenericMethodArguments . Ez a technika minden esetben működik, mivel a metódusok nem általános környezetekben térnek vissza Type.EmptyTypes . A példa összehasonlítja a feloldott MethodInfo és a létrehozott MethodInfo.
A példa ezután a metódus túlterhelésével ResolveMethod(Int32) próbálja feloldani a jogkivonatot. Ez a 3., 4. és 5. esetben működik, mivel a metódushívások nem függnek az általános környezettől. Az 1. és a 2. esetben kivétel történik, mert nincs elegendő információ a jogkivonat feloldásához.
A metaadat-jogkivonat értékei szigorúan enumerálásként vannak kódva. Ha módosítja ezt a példakódot, a jogkivonat értékei valószínűleg megváltoznak. Az új tokenértékek meghatározásához fordítsa le a kódot, és használja a Ildasm.exe a /TOKENS beállítással a szerelvény vizsgálatához. A jogkivonatok a hívási pontokon találhatók. Szúrja be az új értékeket az enumerálásba, és hajtsa újra a példát.
using System;
using System.Reflection;
namespace ResolveMethodExample
{
// Metadata tokens for the MethodRefs that are to be resolved.
// If you change this program, some or all of these metadata tokens might
// change. The new token values can be discovered by compiling the example
// and examining the assembly with Ildasm.exe, using the /TOKENS option.
// Recompile the program after correcting the token values.
enum Tokens
{
Case1 = 0x2b000001,
Case2 = 0x0A000006,
Case3 = 0x2b000002,
Case4 = 0x06000006,
Case5 = 0x2b000002
}
class G1<Tg1>
{
public void GM1<Tgm1> (Tg1 param1, Tgm1 param2) {}
public void M1(Tg1 param) {}
}
class G2<Tg2>
{
public void GM2<Tgm2> (Tg2 param1, Tgm2 param2)
{
// Case 1: A generic method call that depends on its generic
// context, because it uses the type parameters of the enclosing
// generic type G2 and the enclosing generic method GM2. The token
// for the MethodSpec is Tokens.Case1.
G1<Tg2> g = new G1<Tg2>();
g.GM1<Tgm2>(param1, param2);
// Case 2: A non-generic method call that depends on its generic
// context, because it uses the type parameter of the enclosing
// generic type G2. The token for the MemberRef is Tokens.Case2.
g.M1(param1);
// Case 3: A generic method call that does not depend on its generic
// context, because it does not use type parameters of the enclosing
// generic type or method. The token for the MethodSpec is Tokens.Case3.
G1<int> gi = new G1<int>();
gi.GM1<object>(42, new Object());
// Case 4: A non-generic method call that does not depend on its
// generic context, because it does not use the type parameters of the
// enclosing generic type or method. The token for the MethodDef is
// Tokens.Case4.
Example e = new Example();
e.M();
}
}
class Example
{
public void M()
{
G1<int> g = new G1<int>();
// Case 5: A generic method call that does not have any generic
// context. The token for the MethodSpec is Tokens.Case5.
g.GM1<object>(42, new Object());
}
static void Main ()
{
Module mod = typeof(Example).Assembly.ManifestModule;
MethodInfo miResolved2 = null;
// Case 1: A generic method call that is dependent on its generic context.
//
// Create and display a MethodInfo representing the MethodSpec of the
// generic method g.GM1<Tgm2>() that is called in G2<Tg2>.GM2<Tgm2>().
Type t = typeof(G1<>).MakeGenericType(typeof(G2<>).GetGenericArguments());
MethodInfo mi = typeof(G2<>).GetMethod("GM2");
MethodInfo miTest = t.GetMethod("GM1").MakeGenericMethod(mi.GetGenericArguments());
Console.WriteLine("\nCase 1:\n{0}", miTest);
// Resolve the MethodSpec token for method G1<Tg2>.GM1<Tgm2>(), which
// is called in method G2<Tg2>.GM2<Tgm2>(). The GetGenericArguments method
// must be used to obtain the context for resolving the method.
MethodInfo miResolved = (MethodInfo) mod.ResolveMethod(
(int)Tokens.Case1,
typeof(G2<>).GetGenericArguments(),
typeof(G2<>).GetMethod("GM2").GetGenericArguments());
Console.WriteLine(miResolved);
Console.WriteLine("Is the resolved method the same? {0}", miResolved == miTest);
// The overload that doesn't specify generic context throws an exception
// because there is insufficient context to resolve the token.
try
{
miResolved2 = (MethodInfo) mod.ResolveMethod((int)Tokens.Case1);
}
catch (Exception ex)
{
Console.WriteLine("{0}: {1}", ex.GetType(), ex.Message);
}
// Case 2: A non-generic method call that is dependent on its generic context.
//
// Create and display a MethodInfo representing the MemberRef of the
// non-generic method g.M1() that is called in G2<Tg2>.GM2<Tgm2>().
t = typeof(G1<>).MakeGenericType(typeof(G2<>).GetGenericArguments());
miTest = t.GetMethod("M1");
Console.WriteLine("\nCase 2:\n{0}", miTest);
// Resolve the MemberRef token for method G1<Tg2>.M1(), which is
// called in method G2<Tg2>.GM2<Tgm2>(). The GetGenericArguments method
// must be used to obtain the context for resolving the method, because
// the method parameter comes from the generic type G1, and the type
// argument, Tg2, comes from the generic type that encloses the call.
// There is no enclosing generic method, so the value Type.EmptyTypes
// could be passed for the genericMethodArguments parameter.
miResolved = (MethodInfo) mod.ResolveMethod(
(int)Tokens.Case2,
typeof(G2<>).GetGenericArguments(),
typeof(G2<>).GetMethod("GM2").GetGenericArguments());
Console.WriteLine(miResolved);
Console.WriteLine("Is the resolved method the same? {0}", miResolved == miTest);
// The overload that doesn't specify generic context throws an exception
// because there is insufficient context to resolve the token.
try
{
miResolved2 = (MethodInfo) mod.ResolveMethod((int)Tokens.Case2);
}
catch (Exception ex)
{
Console.WriteLine("{0}: {1}", ex.GetType(), ex.Message);
}
// Case 3: A generic method call that is independent of its generic context.
//
// Create and display a MethodInfo representing the MethodSpec of the
// generic method gi.GM1<object>() that is called in G2<Tg2>.GM2<Tgm2>().
mi = typeof(G1<int>).GetMethod("GM1");
miTest = mi.MakeGenericMethod(new Type[] { typeof(object) });
Console.WriteLine("\nCase 3:\n{0}", miTest);
// Resolve the token for method G1<int>.GM1<object>(), which is called
// in G2<Tg2>.GM2<Tgm2>(). The GetGenericArguments method is used to
// obtain the context for resolving the method, but the method call in
// this case does not use type parameters of the enclosing type or
// method, so Type.EmptyTypes could be used for both arguments.
miResolved = (MethodInfo) mod.ResolveMethod(
(int)Tokens.Case3,
typeof(G2<>).GetGenericArguments(),
typeof(G2<>).GetMethod("GM2").GetGenericArguments());
Console.WriteLine(miResolved);
Console.WriteLine("Is the resolved method the same? {0}", miResolved == miTest);
// The method call in this case does not depend on the enclosing generic
// context, so the token can also be resolved by the simpler overload.
miResolved2 = (MethodInfo) mod.ResolveMethod((int)Tokens.Case3);
// Case 4: A non-generic method call that is independent of its generic context.
//
// Create and display a MethodInfo representing the MethodDef of the
// method e.M() that is called in G2<Tg2>.GM2<Tgm2>().
miTest = typeof(Example).GetMethod("M");
Console.WriteLine("\nCase 4:\n{0}", miTest);
// Resolve the token for method Example.M(), which is called in
// G2<Tg2>.GM2<Tgm2>(). The GetGenericArguments method is used to
// obtain the context for resolving the method, but the non-generic
// method call does not use type parameters of the enclosing type or
// method, so Type.EmptyTypes could be used for both arguments.
miResolved = (MethodInfo) mod.ResolveMethod(
(int)Tokens.Case4,
typeof(G2<>).GetGenericArguments(),
typeof(G2<>).GetMethod("GM2").GetGenericArguments());
Console.WriteLine(miResolved);
Console.WriteLine("Is the resolved method the same? {0}", miResolved == miTest);
// The method call in this case does not depend on any enclosing generic
// context, so the token can also be resolved by the simpler overload.
miResolved2 = (MethodInfo) mod.ResolveMethod((int)Tokens.Case4);
// Case 5: Generic method call in a non-generic context.
//
// Create and display a MethodInfo representing the MethodRef of the
// closed generic method g.GM1<object>() that is called in Example.M().
mi = typeof(G1<int>).GetMethod("GM1");
miTest = mi.MakeGenericMethod(new Type[] { typeof(object) });
Console.WriteLine("\nCase 5:\n{0}", miTest);
// Resolve the token for method G1<int>.GM1<object>(), which is called
// in method Example.M(). The GetGenericArguments method is used to
// obtain the context for resolving the method, but the enclosing type
// and method are not generic, so Type.EmptyTypes could be used for
// both arguments.
miResolved = (MethodInfo) mod.ResolveMethod(
(int)Tokens.Case5,
typeof(Example).GetGenericArguments(),
typeof(Example).GetMethod("M").GetGenericArguments());
Console.WriteLine(miResolved);
Console.WriteLine("Is the resolved method the same? {0}", miResolved == miTest);
// The method call in this case does not depend on any enclosing generic
// context, so the token can also be resolved by the simpler overload.
miResolved2 = (MethodInfo) mod.ResolveMethod((int)Tokens.Case5);
}
}
}
/* This example produces the following output:
Case 1:
Void GM1[Tgm2](Tg2, Tgm2)
Void GM1[Tgm2](Tg2, Tgm2)
Is the resolved method the same? True
System.ArgumentException: A BadImageFormatException has been thrown while parsing the signature. This is likely due to lack of a generic context. Ensure genericTypeArguments and genericMethodArguments are provided and contain enough context.
Case 2:
Void M1(Tg2)
Void M1(Tg2)
Is the resolved method the same? True
System.ArgumentException: A BadImageFormatException has been thrown while parsing the signature. This is likely due to lack of a generic context. Ensure genericTypeArguments and genericMethodArguments are provided and contain enough context.
Case 3:
Void GM1[Object](Int32, System.Object)
Void GM1[Object](Int32, System.Object)
Is the resolved method the same? True
Case 4:
Void M()
Void M()
Is the resolved method the same? True
Case 5:
Void GM1[Object](Int32, System.Object)
Void GM1[Object](Int32, System.Object)
Is the resolved method the same? True
*/
Imports System.Reflection
Namespace ResolveMethodExample
' Metadata tokens for the MethodRefs that are to be resolved.
' If you change this program, some or all of these metadata tokens might
' change. The new token values can be discovered by compiling the example
' and examining the assembly with Ildasm.exe, using the /TOKENS option.
' Recompile the program after correcting the token values.
Enum Tokens
Case1 = &H2B000003
Case2 = &HA00001F
Case3 = &H2B000004
Case4 = &H6000017
Case5 = &H2B000004
End Enum
Class G1(Of Tg1)
Public Sub GM1(Of Tgm1) (ByVal param1 As Tg1, ByVal param2 As Tgm1)
End Sub
Public Sub M1(ByVal param As Tg1)
End Sub
End Class
Class G2(Of Tg2)
Public Sub GM2(Of Tgm2) (ByVal param1 As Tg2, ByVal param2 As Tgm2)
' Case 1: A generic method call that depends on its generic
' context, because it uses the type parameters of the enclosing
' generic type G2 and the enclosing generic method GM2. The token
' for the MethodSpec is Tokens.Case1.
Dim g As New G1(Of Tg2)()
g.GM1(Of Tgm2)(param1, param2)
' Case 2: A non-generic method call that depends on its generic
' context, because it uses the type parameter of the enclosing
' generic type G2. The token for the MemberRef is Tokens.Case2.
g.M1(param1)
' Case 3: A generic method call that does not depend on its generic
' context, because it does not use type parameters of the enclosing
' generic type or method. The token for the MethodSpec is Tokens.Case3.
Dim gi As New G1(Of Integer)()
gi.GM1(Of Object)(42, New Object())
' Case 4: A non-generic method call that does not depend on its
' generic context, because it does not use the type parameters of the
' enclosing generic type or method. The token for the MethodDef is
' Tokens.Case4.
Dim e As New Example()
e.M()
End Sub
End Class
Class Example
Public Sub M()
Dim g As New G1(Of Integer)()
' Case 5: A generic method call that does not have any generic
' context. The token for the MethodSpec is Tokens.Case5.
g.GM1(Of Object)(42, New Object())
End Sub
Shared Sub Main()
Dim m As [Module] = GetType(Example).Assembly.ManifestModule
Dim miResolved2 As MethodInfo = Nothing
' Case 1: A generic method call that is dependent on its generic context.
'
' Create and display a MethodInfo representing the MethodSpec of the
' generic method g.GM1(Of Tgm2)() that is called in G2(Of Tg2).GM2(Of Tgm2)().
Dim t As Type = GetType(G1(Of )).MakeGenericType(GetType(G2(Of )).GetGenericArguments())
Dim mi As MethodInfo = GetType(G2(Of )).GetMethod("GM2")
Dim miTest As MethodInfo = t.GetMethod("GM1").MakeGenericMethod(mi.GetGenericArguments())
Console.WriteLine(vbCrLf & "Case 1:" & vbCrLf & miTest.ToString())
' Resolve the MethodSpec token for method G1(Of Tg2).GM1(Of Tgm2)(), which
' is called in method G2(Of Tg2).GM2(Of Tgm2)(). The GetGenericArguments
' method must be used to obtain the context for resolving the method.
Dim miResolved As MethodInfo = CType(m.ResolveMethod( _
CInt(Tokens.Case1), _
GetType(G2(Of )).GetGenericArguments(), _
GetType(G2(Of )).GetMethod("GM2").GetGenericArguments()), _
MethodInfo)
Console.WriteLine(miResolved)
Console.WriteLine("Is the resolved method the same? {0}", miResolved Is miTest)
' The overload that doesn't specify generic context throws an exception
' because there is insufficient context to resolve the token.
Try
miResolved2 = CType(m.ResolveMethod(CInt(Tokens.Case1)), MethodInfo)
Catch ex As Exception
Console.WriteLine("{0}: {1}", ex.GetType(), ex.Message)
End Try
' Case 2: A non-generic method call that is dependent on its generic context.
'
' Create and display a MethodInfo representing the MemberRef of the
' non-generic method g.M1() that is called in G2(Of Tg2).GM2(Of Tgm2)().
t = GetType(G1(Of )).MakeGenericType(GetType(G2(Of )).GetGenericArguments())
miTest = t.GetMethod("M1")
Console.WriteLine(vbCrLf & "Case 2:" & vbCrLf & miTest.ToString())
' Resolve the MemberRef token for method G1(Of Tg2).M1(), which is
' called in method G2(Of Tg2).GM2(Of Tgm2)(). The GetGenericArguments
' method must be used to obtain the context for resolving the method,
' because the method parameter comes from the generic type G1, and the
' because argument, Tg2, comes from the generic type that encloses the
' call. There is no enclosing generic method, so Type.EmptyTypes could
' be passed for the genericMethodArguments parameter.
miResolved = CType(m.ResolveMethod( _
CInt(Tokens.Case2), _
GetType(G2(Of )).GetGenericArguments(), _
GetType(G2(Of )).GetMethod("GM2").GetGenericArguments()), _
MethodInfo)
Console.WriteLine(miResolved)
Console.WriteLine("Is the resolved method the same? {0}", miResolved Is miTest)
' The overload that doesn't specify generic context throws an exception
' because there is insufficient context to resolve the token.
Try
miResolved2 = CType(m.ResolveMethod(CInt(Tokens.Case2)), MethodInfo)
Catch ex As Exception
Console.WriteLine("{0}: {1}", ex.GetType(), ex.Message)
End Try
' Case 3: A generic method call that is independent of its generic context.
'
' Create and display a MethodInfo representing the MethodSpec of the
' generic method gi.GM1(Of Object)() that is called in G2(Of Tg2).GM2(Of Tgm2)().
mi = GetType(G1(Of Integer)).GetMethod("GM1")
miTest = mi.MakeGenericMethod(New Type() {GetType(Object)})
Console.WriteLine(vbCrLf & "Case 3:" & vbCrLf & miTest.ToString())
' Resolve the token for method G1(Of Integer).GM1(Of Object)(), which is
' calledin G2(Of Tg2).GM2(Of Tgm2)(). The GetGenericArguments method is
' used to obtain the context for resolving the method, but the method call
' in this case does not use type parameters of the enclosing type or
' method, so Type.EmptyTypes could be used for both arguments.
miResolved = CType(m.ResolveMethod( _
CInt(Tokens.Case3), _
GetType(G2(Of )).GetGenericArguments(), _
GetType(G2(Of )).GetMethod("GM2").GetGenericArguments()), _
MethodInfo)
Console.WriteLine(miResolved)
Console.WriteLine("Is the resolved method the same? {0}", miResolved Is miTest)
' The method call in this case does not depend on the enclosing generic
' context, so the token can also be resolved by the simpler overload.
miResolved2 = CType(m.ResolveMethod(CInt(Tokens.Case3)), MethodInfo)
' Case 4: A non-generic method call that is independent of its generic context.
'
' Create and display a MethodInfo representing the MethodDef of the
' method e.M() that is called in G2(Of Tg2).GM2(Of Tgm2)().
miTest = GetType(Example).GetMethod("M")
Console.WriteLine(vbCrLf & "Case 4:" & vbCrLf & miTest.ToString())
' Resolve the token for method Example.M(), which is called in
' G2(Of Tg2).GM2(Of Tgm2)(). The GetGenericArguments method is used to
' obtain the context for resolving the method, but the non-generic
' method call does not use type parameters of the enclosing type or
' method, so Type.EmptyTypes could be used for both arguments.
miResolved = CType(m.ResolveMethod( _
CInt(Tokens.Case4), _
GetType(G2(Of )).GetGenericArguments(), _
GetType(G2(Of )).GetMethod("GM2").GetGenericArguments()), _
MethodInfo)
Console.WriteLine(miResolved)
Console.WriteLine("Is the resolved method the same? {0}", miResolved Is miTest)
' The method call in this case does not depend on any enclosing generic
' context, so the token can also be resolved by the simpler overload.
miResolved2 = CType(m.ResolveMethod(CInt(Tokens.Case4)), MethodInfo)
' Case 5: Generic method call in a non-generic context.
'
' Create and display a MethodInfo representing the MethodRef of the
' closed generic method g.GM1(Of Object)() that is called in Example.M().
mi = GetType(G1(Of Integer)).GetMethod("GM1")
miTest = mi.MakeGenericMethod(New Type() {GetType(Object)})
Console.WriteLine(vbCrLf & "Case 5:" & vbCrLf & miTest.ToString())
' Resolve the token for method G1(Of Integer).GM1(Of Object)(), which is
' called in method Example.M(). The GetGenericArguments method is used to
' obtain the context for resolving the method, but the enclosing type
' and method are not generic, so Type.EmptyTypes could be used for
' both arguments.
miResolved = CType(m.ResolveMethod( _
CInt(Tokens.Case5), _
GetType(Example).GetGenericArguments(), _
GetType(Example).GetMethod("M").GetGenericArguments()), _
MethodInfo)
Console.WriteLine(miResolved)
Console.WriteLine("Is the resolved method the same? {0}", miResolved Is miTest)
' The method call in this case does not depend on any enclosing generic
' context, so the token can also be resolved by the simpler overload.
miResolved2 = CType(m.ResolveMethod(CInt(Tokens.Case5)), MethodInfo)
End Sub
End Class
End Namespace
' This example produces the following output:
'
'Case 1:
'Void GM1[Tgm2](Tg2, Tgm2)
'Void GM1[Tgm2](Tg2, Tgm2)
'Is the resolved method the same? True
'System.ArgumentException: A BadImageFormatException has been thrown while parsing the signature. This is likely due to lack of a generic context. Ensure genericTypeArguments and genericMethodArguments are provided and contain enough context.
'
'Case 2:
'Void M1(Tg2)
'Void M1(Tg2)
'Is the resolved method the same? True
'System.ArgumentException: A BadImageFormatException has been thrown while parsing the signature. This is likely due to lack of a generic context. Ensure genericTypeArguments and genericMethodArguments are provided and contain enough context.
'
'Case 3:
'Void GM1[Object](Int32, System.Object)
'Void GM1[Object](Int32, System.Object)
'Is the resolved method the same? True
'
'Case 4:
'Void M()
'Void M()
'Is the resolved method the same? True
'
'Case 5:
'Void GM1[Object](Int32, System.Object)
'Void GM1[Object](Int32, System.Object)
'Is the resolved method the same? True
'
Megjegyzések
Ha olyan metaadat-jogkivonatot MethodSpec szeretne feloldani, amelynek az aláírása elemtípust ELEMENT_TYPE_VAR tartalmaz, vagy ELEMENT_TYPE_MVARhasználja a ResolveMethod(Int32, Type[], Type[]) metódus túlterhelését, amely lehetővé teszi a szükséges környezet megadását. Vagyis ha olyan metódus metaadat-jogkivonatát oldja fel, amely az általános típus általános típusparamétereitől és/vagy az általános metódustól függ, amelyben a jogkivonat beágyazva van, a túlterhelést kell használnia, amely lehetővé teszi ezen típusparaméterek megadását.
Note
A metaadat-jogkivonatokkal kapcsolatos információk a Common Language Infrastructure (CLI) dokumentációjában találhatók, különösen a "Partition II: Metadata Definition and Semantics" (Partition II: Metadata Definition and Semantics) című témakörben. További információ: ECMA 335 Common Language Infrastructure (CLI).
