TypeBuilder.GetMethod(Type, MethodInfo) 方法
定义
重要
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返回与指定泛型类型定义的方法相对应的指定构造泛型类型的方法。
public:
static System::Reflection::MethodInfo ^ GetMethod(Type ^ type, System::Reflection::MethodInfo ^ method);public static System.Reflection.MethodInfo GetMethod (Type type, System.Reflection.MethodInfo method);static member GetMethod : Type * System.Reflection.MethodInfo -> System.Reflection.MethodInfoPublic Shared Function GetMethod (type As Type, method As MethodInfo) As MethodInfo参数
- type
- Type
已返回其方法的构造泛型类型。
- method
- MethodInfo
type 的泛型类型定义的方法,该方法指定要返回 type 的方法。
返回
MethodInfo 对象,它表示与 method 对应的 type 的方法,它指定属于 type 的泛型类型定义的方法。
例外
method 是一个非泛型方法定义的泛型方法。
- 或 -
type 不表示泛型类型。
- 或 -
type 的类型不是 TypeBuilder。
- 或 -
method 的声明类型不是一个泛型类型定义。
- 或 -
method 的声明类型不是 type 的泛型类型定义。
示例
下面的代码示例包含名为 Sample 的泛型类的源代码,该类具有名为 的类型 T参数。 类有一个名为 Field的字段,类型 T为 ,以及一个名为 的 GM 泛型方法,其自己的类型参数名为 U。 方法 GM 创建 的 Sample实例,将自己的类型参数 U 替换为 的类型 Sample参数,并将其输入参数存储在 中 Field。 此源代码已编译,但未使用;可以使用 Ildasm.exe (IL 反汇编程序) 查看它,并将其与类 Example发出的代码进行比较。
类 Example 中的代码演示如何使用 GetMethod 方法发出泛型代码。 Main类Example的 方法创建包含名为 Sample 的类的动态程序集,DefineGenericParameters并使用 方法通过添加名为 的类型参数使其成为泛型T。 无参数构造函数和类型 Field为 的 T字段添加到类 Sample。 使用 MethodBuilder.DefineGenericParameters 方法GM添加方法并将其转换为泛型方法。 的 GM 类型参数名为 U。 定义类型参数后,使用 MethodBuilder.SetSignature 方法添加 的GM签名。 没有返回类型,也没有必需的或自定义修饰符,因此此方法的所有参数都 null 除外 parameterTypes; parameterTypes 将方法唯一参数的类型设置为 U方法的泛型类型参数。 方法的主体在 Visual Basic) 中创建构造类型的 Sample<U> 实例 (Sample(Of U) ,将方法的参数 Field分配给 ,然后打印 的值 Field。 将虚拟类型定义为保存入口点方法 Main。 在 的 Main主体中, GM 静态方法在 Visual Basic) 中构造的泛型类型 Sample<int> (Sample(Of Integer) 上调用,类型 String 替换为 U。 方法GetMethod用于为构造的泛型类型的Sample<U>静态GM方法创建 MethodInfo ,MethodInfo.MakeGenericMethod然后使用 该方法创建MethodInfo可在方法调用中发出的 。
运行代码示例时,它会将发出的程序集保存为 TypeBuilderGetFieldExample.exe。 可以运行 TypeBuilderGetFieldExample.exe,并且可以使用 Ildasm.exe (IL 反汇编程序) 将发出的代码与编译为代码示例本身的类的代码 Sample 进行比较。
using System;
using System.Reflection;
using System.Reflection.Emit;
// Compare the MSIL in this class to the MSIL
// generated by the Reflection.Emit code in class
// Example.
public class Sample<T>
{
public T Field;
public static void GM<U>(U val)
{
Sample<U> s = new Sample<U>();
s.Field = val;
Console.WriteLine(s.Field);
}
}
public class Example
{
public static void Main()
{
AppDomain myDomain = AppDomain.CurrentDomain;
AssemblyName myAsmName =
new AssemblyName("TypeBuilderGetFieldExample");
AssemblyBuilder myAssembly = myDomain.DefineDynamicAssembly(
myAsmName, AssemblyBuilderAccess.Save);
ModuleBuilder myModule = myAssembly.DefineDynamicModule(
myAsmName.Name,
myAsmName.Name + ".exe");
// Define the sample type.
TypeBuilder myType = myModule.DefineType("Sample",
TypeAttributes.Class | TypeAttributes.Public);
// Add a type parameter, making the type generic.
string[] typeParamNames = {"T"};
GenericTypeParameterBuilder[] typeParams =
myType.DefineGenericParameters(typeParamNames);
// Define a default constructor. Normally it would
// not be necessary to define the default constructor,
// but in this case it is needed for the call to
// TypeBuilder.GetConstructor, which gets the default
// constructor for the generic type constructed from
// Sample<T>, in the generic method GM<U>.
ConstructorBuilder ctor = myType.DefineDefaultConstructor(
MethodAttributes.PrivateScope | MethodAttributes.Public |
MethodAttributes.HideBySig | MethodAttributes.SpecialName |
MethodAttributes.RTSpecialName);
// Add a field of type T, with the name Field.
FieldBuilder myField = myType.DefineField("Field",
typeParams[0],
FieldAttributes.Public);
// Add a method and make it generic, with a type
// parameter named U. Note how similar this is to
// the way Sample is turned into a generic type. The
// method has no signature, because the type of its
// only parameter is U, which is not yet defined.
MethodBuilder genMethod = myType.DefineMethod("GM",
MethodAttributes.Public | MethodAttributes.Static);
string[] methodParamNames = {"U"};
GenericTypeParameterBuilder[] methodParams =
genMethod.DefineGenericParameters(methodParamNames);
// Now add a signature for genMethod, specifying U
// as the type of the parameter. There is no return value
// and no custom modifiers.
genMethod.SetSignature(null, null, null,
new Type[] { methodParams[0] }, null, null);
// Emit a method body for the generic method.
ILGenerator ilg = genMethod.GetILGenerator();
// Construct the type Sample<U> using MakeGenericType.
Type SampleOfU = myType.MakeGenericType( methodParams[0] );
// Create a local variable to store the instance of
// Sample<U>.
ilg.DeclareLocal(SampleOfU);
// Call the default constructor. Note that it is
// necessary to have the default constructor for the
// constructed generic type Sample<U>; use the
// TypeBuilder.GetConstructor method to obtain this
// constructor.
ConstructorInfo ctorOfU = TypeBuilder.GetConstructor(
SampleOfU, ctor);
ilg.Emit(OpCodes.Newobj, ctorOfU);
// Store the instance in the local variable; load it
// again, and load the parameter of genMethod.
ilg.Emit(OpCodes.Stloc_0);
ilg.Emit(OpCodes.Ldloc_0);
ilg.Emit(OpCodes.Ldarg_0);
// In order to store the value in the field of the
// instance of Sample<U>, it is necessary to have
// a FieldInfo representing the field of the
// constructed type. Use TypeBuilder.GetField to
// obtain this FieldInfo.
FieldInfo FieldOfU = TypeBuilder.GetField(
SampleOfU, myField);
// Store the value in the field.
ilg.Emit(OpCodes.Stfld, FieldOfU);
// Load the instance, load the field value, box it
// (specifying the type of the type parameter, U), and
// print it.
ilg.Emit(OpCodes.Ldloc_0);
ilg.Emit(OpCodes.Ldfld, FieldOfU);
ilg.Emit(OpCodes.Box, methodParams[0]);
MethodInfo writeLineObj =
typeof(Console).GetMethod("WriteLine",
new Type[] { typeof(object) });
ilg.EmitCall(OpCodes.Call, writeLineObj, null);
ilg.Emit(OpCodes.Ret);
// Emit an entry point method; this must be in a
// non-generic type.
TypeBuilder dummy = myModule.DefineType("Dummy",
TypeAttributes.Class | TypeAttributes.NotPublic);
MethodBuilder entryPoint = dummy.DefineMethod("Main",
MethodAttributes.Public | MethodAttributes.Static,
null, null);
ilg = entryPoint.GetILGenerator();
// In order to call the static generic method GM, it is
// necessary to create a constructed type from the
// generic type definition for Sample. This can be any
// constructed type; in this case Sample<int> is used.
Type SampleOfInt =
myType.MakeGenericType( typeof(int) );
// Next get a MethodInfo representing the static generic
// method GM on type Sample<int>.
MethodInfo SampleOfIntGM = TypeBuilder.GetMethod(SampleOfInt,
genMethod);
// Next get a MethodInfo for GM<string>, which is the
// instantiation of GM that Main calls.
MethodInfo GMOfString =
SampleOfIntGM.MakeGenericMethod( typeof(string) );
// Finally, emit the call. Push a string onto
// the stack, as the argument for the generic method.
ilg.Emit(OpCodes.Ldstr, "Hello, world!");
ilg.EmitCall(OpCodes.Call, GMOfString, null);
ilg.Emit(OpCodes.Ret);
myType.CreateType();
dummy.CreateType();
myAssembly.SetEntryPoint(entryPoint);
myAssembly.Save(myAsmName.Name + ".exe");
Console.WriteLine(myAsmName.Name + ".exe has been saved.");
}
}
Imports System.Reflection
Imports System.Reflection.Emit
' Compare the MSIL in this class to the MSIL
' generated by the Reflection.Emit code in class
' Example.
Public Class Sample(Of T)
Public Field As T
Public Shared Sub GM(Of U)(ByVal val As U)
Dim s As New Sample(Of U)
s.Field = val
Console.WriteLine(s.Field)
End Sub
End Class
Public Class Example
Public Shared Sub Main()
Dim myDomain As AppDomain = AppDomain.CurrentDomain
Dim myAsmName As New AssemblyName("TypeBuilderGetFieldExample")
Dim myAssembly As AssemblyBuilder = _
myDomain.DefineDynamicAssembly(myAsmName, _
AssemblyBuilderAccess.Save)
Dim myModule As ModuleBuilder = _
myAssembly.DefineDynamicModule(myAsmName.Name, _
myAsmName.Name & ".exe")
' Define the sample type.
Dim myType As TypeBuilder = myModule.DefineType( _
"Sample", _
TypeAttributes.Class Or TypeAttributes.Public)
' Add a type parameter, making the type generic.
Dim typeParamNames() As String = { "T" }
Dim typeParams As GenericTypeParameterBuilder() = _
myType.DefineGenericParameters(typeParamNames)
' Define a default constructor. Normally it would
' not be necessary to define the default constructor,
' but in this case it is needed for the call to
' TypeBuilder.GetConstructor, which gets the default
' constructor for the generic type constructed from
' Sample(Of T), in the generic method GM(Of U).
Dim ctor As ConstructorBuilder = _
myType.DefineDefaultConstructor( _
MethodAttributes.PrivateScope Or MethodAttributes.Public _
Or MethodAttributes.HideBySig Or MethodAttributes.SpecialName _
Or MethodAttributes.RTSpecialName)
' Add a field of type T, with the name Field.
Dim myField As FieldBuilder = myType.DefineField( _
"Field", typeParams(0), FieldAttributes.Public)
' Add a method and make it generic, with a type
' parameter named U. Note how similar this is to
' the way Sample is turned into a generic type. The
' method has no signature, because the type of its
' only parameter is U, which is not yet defined.
Dim genMethod As MethodBuilder = _
myType.DefineMethod("GM", _
MethodAttributes.Public Or MethodAttributes.Static)
Dim methodParamNames() As String = { "U" }
Dim methodParams As GenericTypeParameterBuilder() = _
genMethod.DefineGenericParameters(methodParamNames)
' Now add a signature for genMethod, specifying U
' as the type of the parameter. There is no return value
' and no custom modifiers.
genMethod.SetSignature(Nothing, Nothing, Nothing, _
New Type() { methodParams(0) }, Nothing, Nothing)
' Emit a method body for the generic method.
Dim ilg As ILGenerator = genMethod.GetILGenerator()
' Construct the type Sample(Of U) using MakeGenericType.
Dim SampleOfU As Type = _
myType.MakeGenericType(methodParams(0))
' Create a local variable to store the instance of
' Sample(Of U).
ilg.DeclareLocal(SampleOfU)
' Call the default constructor. Note that it is
' necessary to have the default constructor for the
' constructed generic type Sample(Of U); use the
' TypeBuilder.GetConstructor method to obtain this
' constructor.
Dim ctorOfU As ConstructorInfo = _
TypeBuilder.GetConstructor(SampleOfU, ctor)
ilg.Emit(OpCodes.Newobj, ctorOfU)
' Store the instance in the local variable; load it
' again, and load the parameter of genMethod.
ilg.Emit(OpCodes.Stloc_0)
ilg.Emit(OpCodes.Ldloc_0)
ilg.Emit(OpCodes.Ldarg_0)
' In order to store the value in the field of the
' instance of Sample(Of U), it is necessary to have
' a FieldInfo representing the field of the
' constructed type. Use TypeBuilder.GetField to
' obtain this FieldInfo.
Dim FieldOfU As FieldInfo = _
TypeBuilder.GetField(SampleOfU, myField)
' Store the value in the field.
ilg.Emit(OpCodes.Stfld, FieldOfU)
' Load the instance, load the field value, box it
' (specifying the type of the type parameter, U),
' and print it.
ilg.Emit(OpCodes.Ldloc_0)
ilg.Emit(OpCodes.Ldfld, FieldOfU)
ilg.Emit(OpCodes.Box, methodParams(0))
Dim writeLineObj As MethodInfo = _
GetType(Console).GetMethod("WriteLine", _
New Type() {GetType(Object)})
ilg.EmitCall(OpCodes.Call, writeLineObj, Nothing)
ilg.Emit(OpCodes.Ret)
' Emit an entry point method; this must be in a
' non-generic type.
Dim dummy As TypeBuilder = _
myModule.DefineType("Dummy", _
TypeAttributes.Class Or TypeAttributes.NotPublic)
Dim entryPoint As MethodBuilder = _
dummy.DefineMethod("Main", _
MethodAttributes.Public Or MethodAttributes.Static, _
Nothing, Nothing)
ilg = entryPoint.GetILGenerator()
' In order to call the static generic method GM, it is
' necessary to create a constructed type from the
' generic type definition for Sample. This can be ANY
' constructed type; in this case Sample(Of Integer)
' is used.
Dim SampleOfInt As Type = _
myType.MakeGenericType(GetType(Integer))
' Next get a MethodInfo representing the static generic
' method GM on type Sample(Of Integer).
Dim SampleOfIntGM As MethodInfo = _
TypeBuilder.GetMethod(SampleOfInt, genMethod)
' Next get a MethodInfo for GM(Of String), which is the
' instantiation of generic method GM that is called
' by Sub Main.
Dim GMOfString As MethodInfo = _
SampleOfIntGM.MakeGenericMethod(GetType(String))
' Finally, emit the call. Push a string onto
' the stack, as the argument for the generic method.
ilg.Emit(OpCodes.Ldstr, "Hello, world!")
ilg.EmitCall(OpCodes.Call, GMOfString, Nothing)
ilg.Emit(OpCodes.Ret)
myType.CreateType()
dummy.CreateType()
myAssembly.SetEntryPoint(entryPoint)
myAssembly.Save(myAsmName.Name & ".exe")
Console.WriteLine(myAsmName.Name & ".exe has been saved.")
End Sub
End Class
注解
方法 GetMethod 提供了一 MethodInfo 种获取 对象的方法,该对象表示其泛型类型定义由 对象表示的已构造泛型类型的方法 TypeBuilder 。
例如,假设你有一个 TypeBuilder 对象,该对象表示 G<T> Visual Basic generic <T> ref class G 中 C# 语法 (G(Of T)、C++) 中的类型,以及一个 MethodBuilder 对象,该对象代表 Visual Basic T M() 中 C# 语法 (Function M() As T C++) 中定义的G<T>方法T M()。 G<T>假设 具有具有类型参数U的泛型方法,该参数创建构造类型的G<U>实例,并在该实例上调用 方法M。 为了发出函数调用,需要一个 MethodInfo 对象,该对象表示 M 构造的类型 - 换句话说,它返回类型 U 而不是类型 T。 为此,请首先对 TypeBuilder 对象调用 MakeGenericType 方法,并GenericTypeParameterBuilder指定表示U为类型参数的对象。 然后,GetMethod使用 方法的MakeGenericType返回值作为参数,并将 MethodBuilder 表示T M()为参数 type 的 对象调用 方法method。 返回值是 MethodInfo 发出函数调用所需的对象。 代码示例演示了与此类似的方案。
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