TypeBuilder 類別

定義

在執行階段定義和建立類別的新執行個體。Defines and creates new instances of classes during run time.

public ref class TypeBuilder sealed : Type
public ref class TypeBuilder sealed : System::Reflection::TypeInfo
public ref class TypeBuilder sealed : Type, System::Runtime::InteropServices::_TypeBuilder
public ref class TypeBuilder sealed : System::Reflection::TypeInfo, System::Runtime::InteropServices::_TypeBuilder
public ref class TypeBuilder abstract : System::Reflection::TypeInfo
public sealed class TypeBuilder : Type
public sealed class TypeBuilder : System.Reflection.TypeInfo
[System.Runtime.InteropServices.ClassInterface(System.Runtime.InteropServices.ClassInterfaceType.None)]
public sealed class TypeBuilder : Type, System.Runtime.InteropServices._TypeBuilder
[System.Runtime.InteropServices.ClassInterface(System.Runtime.InteropServices.ClassInterfaceType.None)]
[System.Runtime.InteropServices.ComVisible(true)]
public sealed class TypeBuilder : Type, System.Runtime.InteropServices._TypeBuilder
[System.Runtime.InteropServices.ClassInterface(System.Runtime.InteropServices.ClassInterfaceType.None)]
[System.Runtime.InteropServices.ComVisible(true)]
public sealed class TypeBuilder : System.Reflection.TypeInfo, System.Runtime.InteropServices._TypeBuilder
public abstract class TypeBuilder : System.Reflection.TypeInfo
type TypeBuilder = class
    inherit Type
type TypeBuilder = class
    inherit TypeInfo
[<System.Runtime.InteropServices.ClassInterface(System.Runtime.InteropServices.ClassInterfaceType.None)>]
type TypeBuilder = class
    inherit Type
    interface _TypeBuilder
[<System.Runtime.InteropServices.ClassInterface(System.Runtime.InteropServices.ClassInterfaceType.None)>]
[<System.Runtime.InteropServices.ComVisible(true)>]
type TypeBuilder = class
    inherit Type
    interface _TypeBuilder
[<System.Runtime.InteropServices.ClassInterface(System.Runtime.InteropServices.ClassInterfaceType.None)>]
[<System.Runtime.InteropServices.ComVisible(true)>]
type TypeBuilder = class
    inherit TypeInfo
    interface _TypeBuilder
Public NotInheritable Class TypeBuilder
Inherits Type
Public NotInheritable Class TypeBuilder
Inherits TypeInfo
Public NotInheritable Class TypeBuilder
Inherits Type
Implements _TypeBuilder
Public NotInheritable Class TypeBuilder
Inherits TypeInfo
Implements _TypeBuilder
Public MustInherit Class TypeBuilder
Inherits TypeInfo
繼承
TypeBuilder
繼承
TypeBuilder
繼承
屬性
實作

範例

本節包含兩個程式碼範例。This section contains two code examples. 第一個範例顯示如何使用欄位、函式、屬性和方法來建立動態型別。The first example shows how to create a dynamic type with a field, constructor, property, and method. 第二個範例會以動態方式從使用者輸入建立方法。The second example builds a method dynamically from user input.

範例1Example one

下列程式碼範例示範如何使用一個模組來定義動態元件。The following code example shows how to define a dynamic assembly with one module. 範例元件中的模組包含一種類型, MyDynamicType 其中包含私用欄位、取得和設定私用欄位的屬性、初始化私用欄位的函式,以及將使用者提供的數位乘以私用域值並傳回結果的方法。The module in the example assembly contains one type, MyDynamicType, which has a private field, a property that gets and sets the private field, constructors that initialize the private field, and a method that multiplies a user-supplied number by the private field value and returns the result.

AssemblyBuilderAccess.RunAndSave建立元件時,會指定此欄位。The AssemblyBuilderAccess.RunAndSave field is specified when the assembly is created. 元件程式碼會立即使用,而且元件也會儲存到磁片中,如此一來,就可以使用 Ildasm.exe (IL 解譯器) 或在另一個程式中使用它來檢查它。The assembly code is used immediately, and the assembly is also saved to disk so that it can be examined with Ildasm.exe (IL Disassembler) or used in another program.

using namespace System;
using namespace System::Reflection;
using namespace System::Reflection::Emit;

void main()
{
    // An assembly consists of one or more modules, each of which
    // contains zero or more types. This code creates a single-module
    // assembly, the most common case. The module contains one type,
    // named "MyDynamicType", that has a private field, a property 
    // that gets and sets the private field, constructors that 
    // initialize the private field, and a method that multiplies 
    // a user-supplied number by the private field value and returns
    // the result. In Visual C++ the type might look like this:
    /*
      public ref class MyDynamicType
      {
      private:
          int m_number;

      public:
          MyDynamicType() : m_number(42) {};
          MyDynamicType(int initNumber) : m_number(initNumber) {};
      
          property int Number
          {
              int get() { return m_number; }
              void set(int value) { m_number = value; }
          }

          int MyMethod(int multiplier)
          {
              return m_number * multiplier;
          }
      };
    */
      
    AssemblyName^ aName = gcnew AssemblyName("DynamicAssemblyExample");
    AssemblyBuilder^ ab = 
        AppDomain::CurrentDomain->DefineDynamicAssembly(
            aName, 
            AssemblyBuilderAccess::RunAndSave);

    // For a single-module assembly, the module name is usually
    // the assembly name plus an extension.
    ModuleBuilder^ mb = 
        ab->DefineDynamicModule(aName->Name, aName->Name + ".dll");
      
    TypeBuilder^ tb = mb->DefineType(
        "MyDynamicType", 
         TypeAttributes::Public);

    // Add a private field of type int (Int32).
    FieldBuilder^ fbNumber = tb->DefineField(
        "m_number", 
        int::typeid, 
        FieldAttributes::Private);

    // Define a constructor that takes an integer argument and 
    // stores it in the private field. 
    array<Type^>^ parameterTypes = { int::typeid };
    ConstructorBuilder^ ctor1 = tb->DefineConstructor(
        MethodAttributes::Public, 
        CallingConventions::Standard, 
        parameterTypes);

    ILGenerator^ ctor1IL = ctor1->GetILGenerator();
    // For a constructor, argument zero is a reference to the new
    // instance. Push it on the stack before calling the base
    // class constructor. Specify the default constructor of the 
    // base class (System::Object) by passing an empty array of 
    // types (Type::EmptyTypes) to GetConstructor.
    ctor1IL->Emit(OpCodes::Ldarg_0);
    ctor1IL->Emit(OpCodes::Call, 
        Object::typeid->GetConstructor(Type::EmptyTypes));
    // Push the instance on the stack before pushing the argument
    // that is to be assigned to the private field m_number.
    ctor1IL->Emit(OpCodes::Ldarg_0);
    ctor1IL->Emit(OpCodes::Ldarg_1);
    ctor1IL->Emit(OpCodes::Stfld, fbNumber);
    ctor1IL->Emit(OpCodes::Ret);

    // Define a default constructor that supplies a default value
    // for the private field. For parameter types, pass the empty
    // array of types or pass nullptr.
    ConstructorBuilder^ ctor0 = tb->DefineConstructor(
        MethodAttributes::Public, 
        CallingConventions::Standard, 
        Type::EmptyTypes);

    ILGenerator^ ctor0IL = ctor0->GetILGenerator();
    ctor0IL->Emit(OpCodes::Ldarg_0);
    ctor0IL->Emit(OpCodes::Call, 
        Object::typeid->GetConstructor(Type::EmptyTypes));
    // For a constructor, argument zero is a reference to the new
    // instance. Push it on the stack before pushing the default
    // value on the stack.
    ctor0IL->Emit(OpCodes::Ldarg_0);
    ctor0IL->Emit(OpCodes::Ldc_I4_S, 42);
    ctor0IL->Emit(OpCodes::Stfld, fbNumber);
    ctor0IL->Emit(OpCodes::Ret);

    // Define a property named Number that gets and sets the private 
    // field.
    //
    // The last argument of DefineProperty is nullptr, because the
    // property has no parameters. (If you don't specify nullptr, you must
    // specify an array of Type objects. For a parameterless property,
    // use the built-in array with no elements: Type::EmptyTypes)
    PropertyBuilder^ pbNumber = tb->DefineProperty(
        "Number", 
        PropertyAttributes::HasDefault, 
        int::typeid, 
        nullptr);
      
    // The property "set" and property "get" methods require a special
    // set of attributes.
    MethodAttributes getSetAttr = MethodAttributes::Public | 
        MethodAttributes::SpecialName | MethodAttributes::HideBySig;

    // Define the "get" accessor method for Number. The method returns
    // an integer and has no arguments. (Note that nullptr could be 
    // used instead of Types::EmptyTypes)
    MethodBuilder^ mbNumberGetAccessor = tb->DefineMethod(
        "get_Number", 
        getSetAttr, 
        int::typeid, 
        Type::EmptyTypes);
      
    ILGenerator^ numberGetIL = mbNumberGetAccessor->GetILGenerator();
    // For an instance property, argument zero is the instance. Load the 
    // instance, then load the private field and return, leaving the
    // field value on the stack.
    numberGetIL->Emit(OpCodes::Ldarg_0);
    numberGetIL->Emit(OpCodes::Ldfld, fbNumber);
    numberGetIL->Emit(OpCodes::Ret);
    
    // Define the "set" accessor method for Number, which has no return
    // type and takes one argument of type int (Int32).
    MethodBuilder^ mbNumberSetAccessor = tb->DefineMethod(
        "set_Number", 
        getSetAttr, 
        nullptr, 
        gcnew array<Type^> { int::typeid });
      
    ILGenerator^ numberSetIL = mbNumberSetAccessor->GetILGenerator();
    // Load the instance and then the numeric argument, then store the
    // argument in the field.
    numberSetIL->Emit(OpCodes::Ldarg_0);
    numberSetIL->Emit(OpCodes::Ldarg_1);
    numberSetIL->Emit(OpCodes::Stfld, fbNumber);
    numberSetIL->Emit(OpCodes::Ret);
      
    // Last, map the "get" and "set" accessor methods to the 
    // PropertyBuilder. The property is now complete. 
    pbNumber->SetGetMethod(mbNumberGetAccessor);
    pbNumber->SetSetMethod(mbNumberSetAccessor);

    // Define a method that accepts an integer argument and returns
    // the product of that integer and the private field m_number. This
    // time, the array of parameter types is created on the fly.
    MethodBuilder^ meth = tb->DefineMethod(
        "MyMethod", 
        MethodAttributes::Public, 
        int::typeid, 
        gcnew array<Type^> { int::typeid });

    ILGenerator^ methIL = meth->GetILGenerator();
    // To retrieve the private instance field, load the instance it
    // belongs to (argument zero). After loading the field, load the 
    // argument one and then multiply. Return from the method with 
    // the return value (the product of the two numbers) on the 
    // execution stack.
    methIL->Emit(OpCodes::Ldarg_0);
    methIL->Emit(OpCodes::Ldfld, fbNumber);
    methIL->Emit(OpCodes::Ldarg_1);
    methIL->Emit(OpCodes::Mul);
    methIL->Emit(OpCodes::Ret);

    // Finish the type->
    Type^ t = tb->CreateType();
     
    // The following line saves the single-module assembly. This
    // requires AssemblyBuilderAccess to include Save. You can now
    // type "ildasm MyDynamicAsm.dll" at the command prompt, and 
    // examine the assembly. You can also write a program that has
    // a reference to the assembly, and use the MyDynamicType type.
    // 
    ab->Save(aName->Name + ".dll");

    // Because AssemblyBuilderAccess includes Run, the code can be
    // executed immediately. Start by getting reflection objects for
    // the method and the property.
    MethodInfo^ mi = t->GetMethod("MyMethod");
    PropertyInfo^ pi = t->GetProperty("Number");
  
    // Create an instance of MyDynamicType using the default 
    // constructor. 
    Object^ o1 = Activator::CreateInstance(t);

    // Display the value of the property, then change it to 127 and 
    // display it again. Use nullptr to indicate that the property
    // has no index.
    Console::WriteLine("o1->Number: {0}", pi->GetValue(o1, nullptr));
    pi->SetValue(o1, 127, nullptr);
    Console::WriteLine("o1->Number: {0}", pi->GetValue(o1, nullptr));

    // Call MyMethod, passing 22, and display the return value, 22
    // times 127. Arguments must be passed as an array, even when
    // there is only one.
    array<Object^>^ arguments = { 22 };
    Console::WriteLine("o1->MyMethod(22): {0}", 
        mi->Invoke(o1, arguments));

    // Create an instance of MyDynamicType using the constructor
    // that specifies m_Number. The constructor is identified by
    // matching the types in the argument array. In this case, 
    // the argument array is created on the fly. Display the 
    // property value.
    Object^ o2 = Activator::CreateInstance(t, 
        gcnew array<Object^> { 5280 });
    Console::WriteLine("o2->Number: {0}", pi->GetValue(o2, nullptr));
};

/* This code produces the following output:

o1->Number: 42
o1->Number: 127
o1->MyMethod(22): 2794
o2->Number: 5280
 */
using System;
using System.Reflection;
using System.Reflection.Emit;

class DemoAssemblyBuilder
{
    public static void Main()
    {
        // An assembly consists of one or more modules, each of which
        // contains zero or more types. This code creates a single-module
        // assembly, the most common case. The module contains one type,
        // named "MyDynamicType", that has a private field, a property
        // that gets and sets the private field, constructors that
        // initialize the private field, and a method that multiplies
        // a user-supplied number by the private field value and returns
        // the result. In C# the type might look like this:
        /*
        public class MyDynamicType
        {
            private int m_number;

            public MyDynamicType() : this(42) {}
            public MyDynamicType(int initNumber)
            {
                m_number = initNumber;
            }

            public int Number
            {
                get { return m_number; }
                set { m_number = value; }
            }

            public int MyMethod(int multiplier)
            {
                return m_number * multiplier;
            }
        }
        */

        AssemblyName aName = new AssemblyName("DynamicAssemblyExample");
        AssemblyBuilder ab =
            AppDomain.CurrentDomain.DefineDynamicAssembly(
                aName,
                AssemblyBuilderAccess.RunAndSave);

        // For a single-module assembly, the module name is usually
        // the assembly name plus an extension.
        ModuleBuilder mb =
            ab.DefineDynamicModule(aName.Name, aName.Name + ".dll");

        TypeBuilder tb = mb.DefineType(
            "MyDynamicType",
             TypeAttributes.Public);

        // Add a private field of type int (Int32).
        FieldBuilder fbNumber = tb.DefineField(
            "m_number",
            typeof(int),
            FieldAttributes.Private);

        // Define a constructor that takes an integer argument and
        // stores it in the private field.
        Type[] parameterTypes = { typeof(int) };
        ConstructorBuilder ctor1 = tb.DefineConstructor(
            MethodAttributes.Public,
            CallingConventions.Standard,
            parameterTypes);

        ILGenerator ctor1IL = ctor1.GetILGenerator();
        // For a constructor, argument zero is a reference to the new
        // instance. Push it on the stack before calling the base
        // class constructor. Specify the default constructor of the
        // base class (System.Object) by passing an empty array of
        // types (Type.EmptyTypes) to GetConstructor.
        ctor1IL.Emit(OpCodes.Ldarg_0);
        ctor1IL.Emit(OpCodes.Call,
            typeof(object).GetConstructor(Type.EmptyTypes));
        // Push the instance on the stack before pushing the argument
        // that is to be assigned to the private field m_number.
        ctor1IL.Emit(OpCodes.Ldarg_0);
        ctor1IL.Emit(OpCodes.Ldarg_1);
        ctor1IL.Emit(OpCodes.Stfld, fbNumber);
        ctor1IL.Emit(OpCodes.Ret);

        // Define a default constructor that supplies a default value
        // for the private field. For parameter types, pass the empty
        // array of types or pass null.
        ConstructorBuilder ctor0 = tb.DefineConstructor(
            MethodAttributes.Public,
            CallingConventions.Standard,
            Type.EmptyTypes);

        ILGenerator ctor0IL = ctor0.GetILGenerator();
        // For a constructor, argument zero is a reference to the new
        // instance. Push it on the stack before pushing the default
        // value on the stack, then call constructor ctor1.
        ctor0IL.Emit(OpCodes.Ldarg_0);
        ctor0IL.Emit(OpCodes.Ldc_I4_S, 42);
        ctor0IL.Emit(OpCodes.Call, ctor1);
        ctor0IL.Emit(OpCodes.Ret);

        // Define a property named Number that gets and sets the private
        // field.
        //
        // The last argument of DefineProperty is null, because the
        // property has no parameters. (If you don't specify null, you must
        // specify an array of Type objects. For a parameterless property,
        // use the built-in array with no elements: Type.EmptyTypes)
        PropertyBuilder pbNumber = tb.DefineProperty(
            "Number",
            PropertyAttributes.HasDefault,
            typeof(int),
            null);

        // The property "set" and property "get" methods require a special
        // set of attributes.
        MethodAttributes getSetAttr = MethodAttributes.Public |
            MethodAttributes.SpecialName | MethodAttributes.HideBySig;

        // Define the "get" accessor method for Number. The method returns
        // an integer and has no arguments. (Note that null could be
        // used instead of Types.EmptyTypes)
        MethodBuilder mbNumberGetAccessor = tb.DefineMethod(
            "get_Number",
            getSetAttr,
            typeof(int),
            Type.EmptyTypes);

        ILGenerator numberGetIL = mbNumberGetAccessor.GetILGenerator();
        // For an instance property, argument zero is the instance. Load the
        // instance, then load the private field and return, leaving the
        // field value on the stack.
        numberGetIL.Emit(OpCodes.Ldarg_0);
        numberGetIL.Emit(OpCodes.Ldfld, fbNumber);
        numberGetIL.Emit(OpCodes.Ret);

        // Define the "set" accessor method for Number, which has no return
        // type and takes one argument of type int (Int32).
        MethodBuilder mbNumberSetAccessor = tb.DefineMethod(
            "set_Number",
            getSetAttr,
            null,
            new Type[] { typeof(int) });

        ILGenerator numberSetIL = mbNumberSetAccessor.GetILGenerator();
        // Load the instance and then the numeric argument, then store the
        // argument in the field.
        numberSetIL.Emit(OpCodes.Ldarg_0);
        numberSetIL.Emit(OpCodes.Ldarg_1);
        numberSetIL.Emit(OpCodes.Stfld, fbNumber);
        numberSetIL.Emit(OpCodes.Ret);

        // Last, map the "get" and "set" accessor methods to the
        // PropertyBuilder. The property is now complete.
        pbNumber.SetGetMethod(mbNumberGetAccessor);
        pbNumber.SetSetMethod(mbNumberSetAccessor);

        // Define a method that accepts an integer argument and returns
        // the product of that integer and the private field m_number. This
        // time, the array of parameter types is created on the fly.
        MethodBuilder meth = tb.DefineMethod(
            "MyMethod",
            MethodAttributes.Public,
            typeof(int),
            new Type[] { typeof(int) });

        ILGenerator methIL = meth.GetILGenerator();
        // To retrieve the private instance field, load the instance it
        // belongs to (argument zero). After loading the field, load the
        // argument one and then multiply. Return from the method with
        // the return value (the product of the two numbers) on the
        // execution stack.
        methIL.Emit(OpCodes.Ldarg_0);
        methIL.Emit(OpCodes.Ldfld, fbNumber);
        methIL.Emit(OpCodes.Ldarg_1);
        methIL.Emit(OpCodes.Mul);
        methIL.Emit(OpCodes.Ret);

        // Finish the type.
        Type t = tb.CreateType();

        // The following line saves the single-module assembly. This
        // requires AssemblyBuilderAccess to include Save. You can now
        // type "ildasm MyDynamicAsm.dll" at the command prompt, and
        // examine the assembly. You can also write a program that has
        // a reference to the assembly, and use the MyDynamicType type.
        //
        ab.Save(aName.Name + ".dll");

        // Because AssemblyBuilderAccess includes Run, the code can be
        // executed immediately. Start by getting reflection objects for
        // the method and the property.
        MethodInfo mi = t.GetMethod("MyMethod");
        PropertyInfo pi = t.GetProperty("Number");

        // Create an instance of MyDynamicType using the default
        // constructor.
        object o1 = Activator.CreateInstance(t);

        // Display the value of the property, then change it to 127 and
        // display it again. Use null to indicate that the property
        // has no index.
        Console.WriteLine("o1.Number: {0}", pi.GetValue(o1, null));
        pi.SetValue(o1, 127, null);
        Console.WriteLine("o1.Number: {0}", pi.GetValue(o1, null));

        // Call MyMethod, passing 22, and display the return value, 22
        // times 127. Arguments must be passed as an array, even when
        // there is only one.
        object[] arguments = { 22 };
        Console.WriteLine("o1.MyMethod(22): {0}",
            mi.Invoke(o1, arguments));

        // Create an instance of MyDynamicType using the constructor
        // that specifies m_Number. The constructor is identified by
        // matching the types in the argument array. In this case,
        // the argument array is created on the fly. Display the
        // property value.
        object o2 = Activator.CreateInstance(t,
            new object[] { 5280 });
        Console.WriteLine("o2.Number: {0}", pi.GetValue(o2, null));
    }
}

/* This code produces the following output:

o1.Number: 42
o1.Number: 127
o1.MyMethod(22): 2794
o2.Number: 5280
 */
Imports System.Reflection
Imports System.Reflection.Emit

Class DemoAssemblyBuilder

    Public Shared Sub Main()

        ' An assembly consists of one or more modules, each of which
        ' contains zero or more types. This code creates a single-module
        ' assembly, the most common case. The module contains one type,
        ' named "MyDynamicType", that has a private field, a property 
        ' that gets and sets the private field, constructors that 
        ' initialize the private field, and a method that multiplies
        ' a user-supplied number by the private field value and returns 
        ' the result. The code might look like this in Visual Basic:
        '
        'Public Class MyDynamicType
        '    Private m_number As Integer
        '
        '    Public Sub New()
        '        Me.New(42)
        '    End Sub
        '
        '    Public Sub New(ByVal initNumber As Integer)
        '        m_number = initNumber
        '    End Sub
        '
        '    Public Property Number As Integer
        '        Get
        '            Return m_number
        '        End Get
        '        Set
        '            m_Number = Value
        '        End Set
        '    End Property
        '
        '    Public Function MyMethod(ByVal multiplier As Integer) As Integer
        '        Return m_Number * multiplier
        '    End Function
        'End Class
      
        Dim aName As New AssemblyName("DynamicAssemblyExample")
        Dim ab As AssemblyBuilder = _
            AppDomain.CurrentDomain.DefineDynamicAssembly( _
                aName, _
                AssemblyBuilderAccess.RunAndSave)

        ' For a single-module assembly, the module name is usually
        ' the assembly name plus an extension.
        Dim mb As ModuleBuilder = ab.DefineDynamicModule( _
            aName.Name, _
            aName.Name & ".dll")
      
        Dim tb As TypeBuilder = _
            mb.DefineType("MyDynamicType", TypeAttributes.Public)

        ' Add a private field of type Integer (Int32).
        Dim fbNumber As FieldBuilder = tb.DefineField( _
            "m_number", _
            GetType(Integer), _
            FieldAttributes.Private)

        ' Define a constructor that takes an integer argument and 
        ' stores it in the private field. 
        Dim parameterTypes() As Type = { GetType(Integer) }
        Dim ctor1 As ConstructorBuilder = _
            tb.DefineConstructor( _
                MethodAttributes.Public, _
                CallingConventions.Standard, _
                parameterTypes)

        Dim ctor1IL As ILGenerator = ctor1.GetILGenerator()
        ' For a constructor, argument zero is a reference to the new
        ' instance. Push it on the stack before calling the base
        ' class constructor. Specify the default constructor of the 
        ' base class (System.Object) by passing an empty array of 
        ' types (Type.EmptyTypes) to GetConstructor.
        ctor1IL.Emit(OpCodes.Ldarg_0)
        ctor1IL.Emit(OpCodes.Call, _
            GetType(Object).GetConstructor(Type.EmptyTypes))
        ' Push the instance on the stack before pushing the argument
        ' that is to be assigned to the private field m_number.
        ctor1IL.Emit(OpCodes.Ldarg_0)
        ctor1IL.Emit(OpCodes.Ldarg_1)
        ctor1IL.Emit(OpCodes.Stfld, fbNumber)
        ctor1IL.Emit(OpCodes.Ret)

        ' Define a default constructor that supplies a default value
        ' for the private field. For parameter types, pass the empty
        ' array of types or pass Nothing.
        Dim ctor0 As ConstructorBuilder = tb.DefineConstructor( _
            MethodAttributes.Public, _
            CallingConventions.Standard, _
            Type.EmptyTypes)

        Dim ctor0IL As ILGenerator = ctor0.GetILGenerator()
        ' For a constructor, argument zero is a reference to the new
        ' instance. Push it on the stack before pushing the default
        ' value on the stack, then call constructor ctor1.
        ctor0IL.Emit(OpCodes.Ldarg_0)
        ctor0IL.Emit(OpCodes.Ldc_I4_S, 42)
        ctor0IL.Emit(OpCodes.Call, ctor1)
        ctor0IL.Emit(OpCodes.Ret)

        ' Define a property named Number that gets and sets the private 
        ' field.
        '
        ' The last argument of DefineProperty is Nothing, because the
        ' property has no parameters. (If you don't specify Nothing, you must
        ' specify an array of Type objects. For a parameterless property,
        ' use the built-in array with no elements: Type.EmptyTypes)
        Dim pbNumber As PropertyBuilder = tb.DefineProperty( _
            "Number", _
            PropertyAttributes.HasDefault, _
            GetType(Integer), _
            Nothing)
      
        ' The property Set and property Get methods require a special
        ' set of attributes.
        Dim getSetAttr As MethodAttributes = _
            MethodAttributes.Public Or MethodAttributes.SpecialName _
                Or MethodAttributes.HideBySig

        ' Define the "get" accessor method for Number. The method returns
        ' an integer and has no arguments. (Note that Nothing could be 
        ' used instead of Types.EmptyTypes)
        Dim mbNumberGetAccessor As MethodBuilder = tb.DefineMethod( _
            "get_Number", _
            getSetAttr, _
            GetType(Integer), _
            Type.EmptyTypes)
      
        Dim numberGetIL As ILGenerator = mbNumberGetAccessor.GetILGenerator()
        ' For an instance property, argument zero is the instance. Load the 
        ' instance, then load the private field and return, leaving the
        ' field value on the stack.
        numberGetIL.Emit(OpCodes.Ldarg_0)
        numberGetIL.Emit(OpCodes.Ldfld, fbNumber)
        numberGetIL.Emit(OpCodes.Ret)
        
        ' Define the "set" accessor method for Number, which has no return
        ' type and takes one argument of type Integer (Int32).
        Dim mbNumberSetAccessor As MethodBuilder = _
            tb.DefineMethod( _
                "set_Number", _
                getSetAttr, _
                Nothing, _
                New Type() { GetType(Integer) })
      
        Dim numberSetIL As ILGenerator = mbNumberSetAccessor.GetILGenerator()
        ' Load the instance and then the numeric argument, then store the
        ' argument in the field.
        numberSetIL.Emit(OpCodes.Ldarg_0)
        numberSetIL.Emit(OpCodes.Ldarg_1)
        numberSetIL.Emit(OpCodes.Stfld, fbNumber)
        numberSetIL.Emit(OpCodes.Ret)
      
        ' Last, map the "get" and "set" accessor methods to the 
        ' PropertyBuilder. The property is now complete. 
        pbNumber.SetGetMethod(mbNumberGetAccessor)
        pbNumber.SetSetMethod(mbNumberSetAccessor)

        ' Define a method that accepts an integer argument and returns
        ' the product of that integer and the private field m_number. This
        ' time, the array of parameter types is created on the fly.
        Dim meth As MethodBuilder = tb.DefineMethod( _
            "MyMethod", _
            MethodAttributes.Public, _
            GetType(Integer), _
            New Type() { GetType(Integer) })

        Dim methIL As ILGenerator = meth.GetILGenerator()
        ' To retrieve the private instance field, load the instance it
        ' belongs to (argument zero). After loading the field, load the 
        ' argument one and then multiply. Return from the method with 
        ' the return value (the product of the two numbers) on the 
        ' execution stack.
        methIL.Emit(OpCodes.Ldarg_0)
        methIL.Emit(OpCodes.Ldfld, fbNumber)
        methIL.Emit(OpCodes.Ldarg_1)
        methIL.Emit(OpCodes.Mul)
        methIL.Emit(OpCodes.Ret)

        ' Finish the type.
        Dim t As Type = tb.CreateType()
     
        ' The following line saves the single-module assembly. This
        ' requires AssemblyBuilderAccess to include Save. You can now
        ' type "ildasm MyDynamicAsm.dll" at the command prompt, and 
        ' examine the assembly. You can also write a program that has
        ' a reference to the assembly, and use the MyDynamicType type.
        ' 
        ab.Save(aName.Name & ".dll") 

        ' Because AssemblyBuilderAccess includes Run, the code can be
        ' executed immediately. Start by getting reflection objects for
        ' the method and the property.
        Dim mi As MethodInfo = t.GetMethod("MyMethod")
        Dim pi As PropertyInfo = t.GetProperty("Number")
  
        ' Create an instance of MyDynamicType using the default 
        ' constructor. 
        Dim o1 As Object = Activator.CreateInstance(t)

        ' Display the value of the property, then change it to 127 and 
        ' display it again. Use Nothing to indicate that the property
        ' has no index.
        Console.WriteLine("o1.Number: {0}", pi.GetValue(o1, Nothing))
        pi.SetValue(o1, 127, Nothing)
        Console.WriteLine("o1.Number: {0}", pi.GetValue(o1, Nothing))

        ' Call MyMethod, passing 22, and display the return value, 22
        ' times 127. Arguments must be passed as an array, even when
        ' there is only one.
        Dim arguments() As Object = { 22 }
        Console.WriteLine("o1.MyMethod(22): {0}", _
            mi.Invoke(o1, arguments))

        ' Create an instance of MyDynamicType using the constructor
        ' that specifies m_Number. The constructor is identified by
        ' matching the types in the argument array. In this case, 
        ' the argument array is created on the fly. Display the 
        ' property value.
        Dim o2 As Object = Activator.CreateInstance(t, _
            New Object() { 5280 })
        Console.WriteLine("o2.Number: {0}", pi.GetValue(o2, Nothing))
      
    End Sub  
End Class

' This code produces the following output:
'
'o1.Number: 42
'o1.Number: 127
'o1.MyMethod(22): 2794
'o2.Number: 5280

範例二Example two

下列程式碼範例將示範如何使用建立動態型別 TypeBuilderThe following code sample demonstrates how to build a dynamic type by using TypeBuilder.

using namespace System;
using namespace System::Threading;
using namespace System::Reflection;
using namespace System::Reflection::Emit;
Type^ DynamicDotProductGen()
{
   Type^ ivType = nullptr;
   array<Type^>^temp0 = {int::typeid,int::typeid,int::typeid};
   array<Type^>^ctorParams = temp0;
   AppDomain^ myDomain = Thread::GetDomain();
   AssemblyName^ myAsmName = gcnew AssemblyName;
   myAsmName->Name = "IntVectorAsm";
   AssemblyBuilder^ myAsmBuilder = myDomain->DefineDynamicAssembly( myAsmName, AssemblyBuilderAccess::RunAndSave );
   ModuleBuilder^ IntVectorModule = myAsmBuilder->DefineDynamicModule( "IntVectorModule", "Vector.dll" );
   TypeBuilder^ ivTypeBld = IntVectorModule->DefineType( "IntVector", TypeAttributes::Public );
   FieldBuilder^ xField = ivTypeBld->DefineField( "x", int::typeid, FieldAttributes::Private );
   FieldBuilder^ yField = ivTypeBld->DefineField( "y", int::typeid, FieldAttributes::Private );
   FieldBuilder^ zField = ivTypeBld->DefineField( "z", int::typeid, FieldAttributes::Private );
   Type^ objType = Type::GetType( "System.Object" );
   ConstructorInfo^ objCtor = objType->GetConstructor( gcnew array<Type^>(0) );
   ConstructorBuilder^ ivCtor = ivTypeBld->DefineConstructor( MethodAttributes::Public, CallingConventions::Standard, ctorParams );
   ILGenerator^ ctorIL = ivCtor->GetILGenerator();
   ctorIL->Emit( OpCodes::Ldarg_0 );
   ctorIL->Emit( OpCodes::Call, objCtor );
   ctorIL->Emit( OpCodes::Ldarg_0 );
   ctorIL->Emit( OpCodes::Ldarg_1 );
   ctorIL->Emit( OpCodes::Stfld, xField );
   ctorIL->Emit( OpCodes::Ldarg_0 );
   ctorIL->Emit( OpCodes::Ldarg_2 );
   ctorIL->Emit( OpCodes::Stfld, yField );
   ctorIL->Emit( OpCodes::Ldarg_0 );
   ctorIL->Emit( OpCodes::Ldarg_3 );
   ctorIL->Emit( OpCodes::Stfld, zField );
   ctorIL->Emit( OpCodes::Ret );
   
   // This method will find the dot product of the stored vector
   // with another.
   array<Type^>^temp1 = {ivTypeBld};
   array<Type^>^dpParams = temp1;
   
   // Here, you create a MethodBuilder containing the
   // name, the attributes (public, static, private, and so on),
   // the return type (int, in this case), and a array of Type
   // indicating the type of each parameter. Since the sole parameter
   // is a IntVector, the very class you're creating, you will
   // pass in the TypeBuilder (which is derived from Type) instead of
   // a Type object for IntVector, avoiding an exception.
   // -- This method would be declared in C# as:
   //    public int DotProduct(IntVector aVector)
   MethodBuilder^ dotProductMthd = ivTypeBld->DefineMethod( "DotProduct", MethodAttributes::Public, int::typeid, dpParams );
   
   // A ILGenerator can now be spawned, attached to the MethodBuilder.
   ILGenerator^ mthdIL = dotProductMthd->GetILGenerator();
   
   // Here's the body of our function, in MSIL form. We're going to find the
   // "dot product" of the current vector instance with the passed vector
   // instance. For reference purposes, the equation is:
   // (x1 * x2) + (y1 * y2) + (z1 * z2) = the dot product
   // First, you'll load the reference to the current instance "this"
   // stored in argument 0 (ldarg.0) onto the stack. Ldfld, the subsequent
   // instruction, will pop the reference off the stack and look up the
   // field "x", specified by the FieldInfo token "xField".
   mthdIL->Emit( OpCodes::Ldarg_0 );
   mthdIL->Emit( OpCodes::Ldfld, xField );
   
   // That completed, the value stored at field "x" is now atop the stack.
   // Now, you'll do the same for the Object reference we passed as a
   // parameter, stored in argument 1 (ldarg.1). After Ldfld executed,
   // you'll have the value stored in field "x" for the passed instance
   // atop the stack.
   mthdIL->Emit( OpCodes::Ldarg_1 );
   mthdIL->Emit( OpCodes::Ldfld, xField );
   
   // There will now be two values atop the stack - the "x" value for the
   // current vector instance, and the "x" value for the passed instance.
   // You'll now multiply them, and push the result onto the evaluation stack.
   mthdIL->Emit( OpCodes::Mul_Ovf_Un );
   
   // Now, repeat this for the "y" fields of both vectors.
   mthdIL->Emit( OpCodes::Ldarg_0 );
   mthdIL->Emit( OpCodes::Ldfld, yField );
   mthdIL->Emit( OpCodes::Ldarg_1 );
   mthdIL->Emit( OpCodes::Ldfld, yField );
   mthdIL->Emit( OpCodes::Mul_Ovf_Un );
   
   // At this time, the results of both multiplications should be atop
   // the stack. You'll now add them and push the result onto the stack.
   mthdIL->Emit( OpCodes::Add_Ovf_Un );
   
   // Multiply both "z" field and push the result onto the stack.
   mthdIL->Emit( OpCodes::Ldarg_0 );
   mthdIL->Emit( OpCodes::Ldfld, zField );
   mthdIL->Emit( OpCodes::Ldarg_1 );
   mthdIL->Emit( OpCodes::Ldfld, zField );
   mthdIL->Emit( OpCodes::Mul_Ovf_Un );
   
   // Finally, add the result of multiplying the "z" fields with the
   // result of the earlier addition, and push the result - the dot product -
   // onto the stack.
   mthdIL->Emit( OpCodes::Add_Ovf_Un );
   
   // The "ret" opcode will pop the last value from the stack and return it
   // to the calling method. You're all done!
   mthdIL->Emit( OpCodes::Ret );
   ivType = ivTypeBld->CreateType();
   return ivType;
}

int main()
{
   Type^ IVType = nullptr;
   Object^ aVector1 = nullptr;
   Object^ aVector2 = nullptr;
   array<Type^>^temp2 = {int::typeid,int::typeid,int::typeid};
   array<Type^>^aVtypes = temp2;
   array<Object^>^temp3 = {10,10,10};
   array<Object^>^aVargs1 = temp3;
   array<Object^>^temp4 = {20,20,20};
   array<Object^>^aVargs2 = temp4;
   
   // Call the  method to build our dynamic class.
   IVType = DynamicDotProductGen();
   Console::WriteLine( "---" );
   ConstructorInfo^ myDTctor = IVType->GetConstructor( aVtypes );
   aVector1 = myDTctor->Invoke( aVargs1 );
   aVector2 = myDTctor->Invoke( aVargs2 );
   array<Object^>^passMe = gcnew array<Object^>(1);
   passMe[ 0 ] = dynamic_cast<Object^>(aVector2);
   Console::WriteLine( "(10, 10, 10) . (20, 20, 20) = {0}", IVType->InvokeMember( "DotProduct", BindingFlags::InvokeMethod, nullptr, aVector1, passMe ) );
}

// +++ OUTPUT +++
// ---
// (10, 10, 10) . (20, 20, 20) = 600

using System;
using System.Threading;
using System.Reflection;
using System.Reflection.Emit;

class TestILGenerator {

    public static Type DynamicDotProductGen() {
    
       Type ivType = null;
       Type[] ctorParams = new Type[] { typeof(int),
                                typeof(int),
                        typeof(int)};
    
       AppDomain myDomain = Thread.GetDomain();
       AssemblyName myAsmName = new AssemblyName();
       myAsmName.Name = "IntVectorAsm";
    
       AssemblyBuilder myAsmBuilder = myDomain.DefineDynamicAssembly(
                      myAsmName,
                      AssemblyBuilderAccess.RunAndSave);

       ModuleBuilder IntVectorModule = myAsmBuilder.DefineDynamicModule("IntVectorModule",
                                        "Vector.dll");

       TypeBuilder ivTypeBld = IntVectorModule.DefineType("IntVector",
                                      TypeAttributes.Public);

       FieldBuilder xField = ivTypeBld.DefineField("x", typeof(int),
                                                       FieldAttributes.Private);
       FieldBuilder yField = ivTypeBld.DefineField("y", typeof(int),
                                                       FieldAttributes.Private);
       FieldBuilder zField = ivTypeBld.DefineField("z", typeof(int),
                                                       FieldAttributes.Private);

           Type objType = Type.GetType("System.Object");
           ConstructorInfo objCtor = objType.GetConstructor(new Type[0]);

       ConstructorBuilder ivCtor = ivTypeBld.DefineConstructor(
                      MethodAttributes.Public,
                      CallingConventions.Standard,
                      ctorParams);
       ILGenerator ctorIL = ivCtor.GetILGenerator();
           ctorIL.Emit(OpCodes.Ldarg_0);
           ctorIL.Emit(OpCodes.Call, objCtor);
           ctorIL.Emit(OpCodes.Ldarg_0);
           ctorIL.Emit(OpCodes.Ldarg_1);
           ctorIL.Emit(OpCodes.Stfld, xField);
           ctorIL.Emit(OpCodes.Ldarg_0);
           ctorIL.Emit(OpCodes.Ldarg_2);
           ctorIL.Emit(OpCodes.Stfld, yField);
           ctorIL.Emit(OpCodes.Ldarg_0);
           ctorIL.Emit(OpCodes.Ldarg_3);
           ctorIL.Emit(OpCodes.Stfld, zField);
       ctorIL.Emit(OpCodes.Ret);

       // This method will find the dot product of the stored vector
       // with another.

       Type[] dpParams = new Type[] { ivTypeBld };

           // Here, you create a MethodBuilder containing the
       // name, the attributes (public, static, private, and so on),
       // the return type (int, in this case), and a array of Type
       // indicating the type of each parameter. Since the sole parameter
       // is a IntVector, the very class you're creating, you will
       // pass in the TypeBuilder (which is derived from Type) instead of
       // a Type object for IntVector, avoiding an exception.

       // -- This method would be declared in C# as:
       //    public int DotProduct(IntVector aVector)

           MethodBuilder dotProductMthd = ivTypeBld.DefineMethod(
                                  "DotProduct",
                          MethodAttributes.Public,
                                          typeof(int),
                                          dpParams);

       // A ILGenerator can now be spawned, attached to the MethodBuilder.

       ILGenerator mthdIL = dotProductMthd.GetILGenerator();
    
       // Here's the body of our function, in MSIL form. We're going to find the
       // "dot product" of the current vector instance with the passed vector
       // instance. For reference purposes, the equation is:
       // (x1 * x2) + (y1 * y2) + (z1 * z2) = the dot product

       // First, you'll load the reference to the current instance "this"
       // stored in argument 0 (ldarg.0) onto the stack. Ldfld, the subsequent
       // instruction, will pop the reference off the stack and look up the
       // field "x", specified by the FieldInfo token "xField".

       mthdIL.Emit(OpCodes.Ldarg_0);
       mthdIL.Emit(OpCodes.Ldfld, xField);

       // That completed, the value stored at field "x" is now atop the stack.
       // Now, you'll do the same for the object reference we passed as a
       // parameter, stored in argument 1 (ldarg.1). After Ldfld executed,
       // you'll have the value stored in field "x" for the passed instance
       // atop the stack.

       mthdIL.Emit(OpCodes.Ldarg_1);
       mthdIL.Emit(OpCodes.Ldfld, xField);

           // There will now be two values atop the stack - the "x" value for the
       // current vector instance, and the "x" value for the passed instance.
       // You'll now multiply them, and push the result onto the evaluation stack.

       mthdIL.Emit(OpCodes.Mul_Ovf_Un);

       // Now, repeat this for the "y" fields of both vectors.

       mthdIL.Emit(OpCodes.Ldarg_0);
       mthdIL.Emit(OpCodes.Ldfld, yField);
       mthdIL.Emit(OpCodes.Ldarg_1);
       mthdIL.Emit(OpCodes.Ldfld, yField);
       mthdIL.Emit(OpCodes.Mul_Ovf_Un);

       // At this time, the results of both multiplications should be atop
       // the stack. You'll now add them and push the result onto the stack.

       mthdIL.Emit(OpCodes.Add_Ovf_Un);

       // Multiply both "z" field and push the result onto the stack.
       mthdIL.Emit(OpCodes.Ldarg_0);
       mthdIL.Emit(OpCodes.Ldfld, zField);
       mthdIL.Emit(OpCodes.Ldarg_1);
       mthdIL.Emit(OpCodes.Ldfld, zField);
       mthdIL.Emit(OpCodes.Mul_Ovf_Un);

       // Finally, add the result of multiplying the "z" fields with the
       // result of the earlier addition, and push the result - the dot product -
       // onto the stack.
       mthdIL.Emit(OpCodes.Add_Ovf_Un);

       // The "ret" opcode will pop the last value from the stack and return it
       // to the calling method. You're all done!

       mthdIL.Emit(OpCodes.Ret);

       ivType = ivTypeBld.CreateType();

       return ivType;
    }

    public static void Main() {
    
       Type IVType = null;
           object aVector1 = null;
           object aVector2 = null;
       Type[] aVtypes = new Type[] {typeof(int), typeof(int), typeof(int)};
           object[] aVargs1 = new object[] {10, 10, 10};
           object[] aVargs2 = new object[] {20, 20, 20};
    
       // Call the  method to build our dynamic class.

       IVType = DynamicDotProductGen();

           Console.WriteLine("---");

       ConstructorInfo myDTctor = IVType.GetConstructor(aVtypes);
       aVector1 = myDTctor.Invoke(aVargs1);
       aVector2 = myDTctor.Invoke(aVargs2);

       object[] passMe = new object[1];
           passMe[0] = (object)aVector2;

       Console.WriteLine("(10, 10, 10) . (20, 20, 20) = {0}",
                 IVType.InvokeMember("DotProduct",
                          BindingFlags.InvokeMethod,
                          null,
                          aVector1,
                          passMe));

       // +++ OUTPUT +++
       // ---
       // (10, 10, 10) . (20, 20, 20) = 600
    }
}

Imports System.Threading
Imports System.Reflection
Imports System.Reflection.Emit

 _


Class TestILGenerator
   
   
   Public Shared Function DynamicDotProductGen() As Type
      
      Dim ivType As Type = Nothing
      Dim ctorParams() As Type = {GetType(Integer), GetType(Integer), GetType(Integer)}
      
      Dim myDomain As AppDomain = Thread.GetDomain()
      Dim myAsmName As New AssemblyName()
      myAsmName.Name = "IntVectorAsm"
      
      Dim myAsmBuilder As AssemblyBuilder = myDomain.DefineDynamicAssembly( _
                        myAsmName, _
                        AssemblyBuilderAccess.RunAndSave)
      
      Dim IntVectorModule As ModuleBuilder = myAsmBuilder.DefineDynamicModule( _
                         "IntVectorModule", _
                         "Vector.dll")
      
      Dim ivTypeBld As TypeBuilder = IntVectorModule.DefineType("IntVector", TypeAttributes.Public)
      
      Dim xField As FieldBuilder = ivTypeBld.DefineField("x", _
                                 GetType(Integer), _
                                 FieldAttributes.Private)
      Dim yField As FieldBuilder = ivTypeBld.DefineField("y", _ 
                                 GetType(Integer), _
                                 FieldAttributes.Private)
      Dim zField As FieldBuilder = ivTypeBld.DefineField("z", _
                                 GetType(Integer), _
                                 FieldAttributes.Private)
      
      
      Dim objType As Type = Type.GetType("System.Object")
      Dim objCtor As ConstructorInfo = objType.GetConstructor(New Type() {})
      
      Dim ivCtor As ConstructorBuilder = ivTypeBld.DefineConstructor( _
                     MethodAttributes.Public, _
                     CallingConventions.Standard, _
                     ctorParams)
      Dim ctorIL As ILGenerator = ivCtor.GetILGenerator()
      ctorIL.Emit(OpCodes.Ldarg_0)
      ctorIL.Emit(OpCodes.Call, objCtor)
      ctorIL.Emit(OpCodes.Ldarg_0)
      ctorIL.Emit(OpCodes.Ldarg_1)
      ctorIL.Emit(OpCodes.Stfld, xField)
      ctorIL.Emit(OpCodes.Ldarg_0)
      ctorIL.Emit(OpCodes.Ldarg_2)
      ctorIL.Emit(OpCodes.Stfld, yField)
      ctorIL.Emit(OpCodes.Ldarg_0)
      ctorIL.Emit(OpCodes.Ldarg_3)
      ctorIL.Emit(OpCodes.Stfld, zField)
      ctorIL.Emit(OpCodes.Ret)
     

      ' Now, you'll construct the method find the dot product of two vectors. First,
      ' let's define the parameters that will be accepted by the method. In this case,
      ' it's an IntVector itself!

      Dim dpParams() As Type = {ivTypeBld}
      
      ' Here, you create a MethodBuilder containing the
      ' name, the attributes (public, static, private, and so on),
      ' the return type (int, in this case), and a array of Type
      ' indicating the type of each parameter. Since the sole parameter
      ' is a IntVector, the very class you're creating, you will
      ' pass in the TypeBuilder (which is derived from Type) instead of 
      ' a Type object for IntVector, avoiding an exception. 
      ' -- This method would be declared in VB.NET as:
      '    Public Function DotProduct(IntVector aVector) As Integer

      Dim dotProductMthd As MethodBuilder = ivTypeBld.DefineMethod("DotProduct", _
                        MethodAttributes.Public, GetType(Integer), _
                                            dpParams)
      
      ' A ILGenerator can now be spawned, attached to the MethodBuilder.
      Dim mthdIL As ILGenerator = dotProductMthd.GetILGenerator()
      
      ' Here's the body of our function, in MSIL form. We're going to find the
      ' "dot product" of the current vector instance with the passed vector 
      ' instance. For reference purposes, the equation is:
      ' (x1 * x2) + (y1 * y2) + (z1 * z2) = the dot product
      ' First, you'll load the reference to the current instance "this"
      ' stored in argument 0 (ldarg.0) onto the stack. Ldfld, the subsequent
      ' instruction, will pop the reference off the stack and look up the
      ' field "x", specified by the FieldInfo token "xField".
      mthdIL.Emit(OpCodes.Ldarg_0)
      mthdIL.Emit(OpCodes.Ldfld, xField)
      
      ' That completed, the value stored at field "x" is now atop the stack.
      ' Now, you'll do the same for the object reference we passed as a
      ' parameter, stored in argument 1 (ldarg.1). After Ldfld executed,
      ' you'll have the value stored in field "x" for the passed instance
      ' atop the stack.
      mthdIL.Emit(OpCodes.Ldarg_1)
      mthdIL.Emit(OpCodes.Ldfld, xField)
      
      ' There will now be two values atop the stack - the "x" value for the
      ' current vector instance, and the "x" value for the passed instance.
      ' You'll now multiply them, and push the result onto the evaluation stack.
      mthdIL.Emit(OpCodes.Mul_Ovf_Un)
      
      ' Now, repeat this for the "y" fields of both vectors.
      mthdIL.Emit(OpCodes.Ldarg_0)
      mthdIL.Emit(OpCodes.Ldfld, yField)
      mthdIL.Emit(OpCodes.Ldarg_1)
      mthdIL.Emit(OpCodes.Ldfld, yField)
      mthdIL.Emit(OpCodes.Mul_Ovf_Un)
      
      ' At this time, the results of both multiplications should be atop
      ' the stack. You'll now add them and push the result onto the stack.
      mthdIL.Emit(OpCodes.Add_Ovf_Un)
      
      ' Multiply both "z" field and push the result onto the stack.
      mthdIL.Emit(OpCodes.Ldarg_0)
      mthdIL.Emit(OpCodes.Ldfld, zField)
      mthdIL.Emit(OpCodes.Ldarg_1)
      mthdIL.Emit(OpCodes.Ldfld, zField)
      mthdIL.Emit(OpCodes.Mul_Ovf_Un)
      
      ' Finally, add the result of multiplying the "z" fields with the
      ' result of the earlier addition, and push the result - the dot product -
      ' onto the stack.
      mthdIL.Emit(OpCodes.Add_Ovf_Un)
      
      ' The "ret" opcode will pop the last value from the stack and return it
      ' to the calling method. You're all done!
      mthdIL.Emit(OpCodes.Ret)
      
      
      ivType = ivTypeBld.CreateType()
      
      Return ivType
   End Function 'DynamicDotProductGen
    
   
   Public Shared Sub Main()
      
      Dim IVType As Type = Nothing
      Dim aVector1 As Object = Nothing
      Dim aVector2 As Object = Nothing
      Dim aVtypes() As Type = {GetType(Integer), GetType(Integer), GetType(Integer)}
      Dim aVargs1() As Object = {10, 10, 10}
      Dim aVargs2() As Object = {20, 20, 20}
      
      ' Call the  method to build our dynamic class.
      IVType = DynamicDotProductGen()
      
      
      Dim myDTctor As ConstructorInfo = IVType.GetConstructor(aVtypes)
      aVector1 = myDTctor.Invoke(aVargs1)
      aVector2 = myDTctor.Invoke(aVargs2)
      
      Console.WriteLine("---")
      Dim passMe(0) As Object
      passMe(0) = CType(aVector2, Object)
      
      Console.WriteLine("(10, 10, 10) . (20, 20, 20) = {0}", _
                        IVType.InvokeMember("DotProduct", BindingFlags.InvokeMethod, _
                        Nothing, aVector1, passMe))
   End Sub
End Class



' +++ OUTPUT +++
' ---
' (10, 10, 10) . (20, 20, 20) = 600 


備註

TypeBuilder 這是用來控制在執行時間中建立動態類別的根類別。TypeBuilder is the root class used to control the creation of dynamic classes in the runtime. 它提供一組常式,可用來定義類別、新增方法和欄位,以及在模組內建立類別。It provides a set of routines that are used to define classes, add methods and fields, and create the class inside a module. TypeBuilder 可以藉由呼叫傳回物件的方法,從動態模組建立新的 ModuleBuilder.DefineType TypeBuilderA new TypeBuilder can be created from a dynamic module by calling the ModuleBuilder.DefineType method, which returns a TypeBuilder object.

反映發出提供下列定義類型的選項:Reflection emit provides the following options for defining types:

  • 使用指定的名稱定義類別或介面。Define a class or interface with the given name.

  • 使用指定的名稱和屬性來定義類別或介面。Define a class or interface with the given name and attributes.

  • 使用指定的名稱、屬性和基類來定義類別。Define a class with the given name, attributes, and base class.

  • 使用指定的名稱、屬性、基類以及類別所執行的介面集來定義類別。Define a class with the given name, attributes, base class, and the set of interfaces that the class implements.

  • 使用指定的名稱、屬性、基類和封裝大小來定義類別。Define a class with the given name, attributes, base class, and packing size.

  • 使用指定的名稱、屬性、基類,以及整個類別大小來定義類別。Define a class with the given name, attributes, base class, and the class size as a whole.

  • 使用指定的名稱、屬性、基類、封裝大小,以及整個類別大小來定義類別。Define a class with the given name, attributes, base class, packing size, and the class size as a whole.

若要針對物件所代表的不完整類型建立陣列類型、指標類型或 byref 類型 TypeBuilder ,請 MakeArrayType 分別使用方法、 MakePointerType 方法或 MakeByRefType 方法。To create an array type, pointer type, or byref type for an incomplete type that is represented by a TypeBuilder object, use the MakeArrayType method, MakePointerType method, or MakeByRefType method, respectively.

使用型別之前,必須先 TypeBuilder.CreateType 呼叫方法。Before a type is used, the TypeBuilder.CreateType method must be called. CreateType 完成類型的建立。CreateType completes the creation of the type. 呼叫 CreateType 之後,呼叫端可以使用方法具現化類型 Activator.CreateInstance ,並使用方法來叫用類型的成員 Type.InvokeMemberFollowing the call to CreateType, the caller can instantiate the type by using the Activator.CreateInstance method, and invoke members of the type by using the Type.InvokeMember method. 在呼叫 CreateType 之後,叫用會變更型別實作為方法的錯誤。It is an error to invoke methods that change the implementation of a type after CreateType has been called. 例如,如果呼叫端嘗試將新成員加入至類型,則 common language runtime 會擲回例外狀況。For example, the common language runtime throws an exception if the caller tries to add new members to a type.

您可以使用方法來建立類別初始化運算式 TypeBuilder.DefineTypeInitializerA class initializer is created by using the TypeBuilder.DefineTypeInitializer method. DefineTypeInitializer 會傳回 ConstructorBuilder 物件。DefineTypeInitializer returns a ConstructorBuilder object.

巢狀型別是藉由呼叫其中一個方法來定義 TypeBuilder.DefineNestedTypeNested types are defined by calling one of the TypeBuilder.DefineNestedType methods.

屬性Attributes

TypeBuilder類別會使用 TypeAttributes 列舉來進一步指定要建立之型別的特性:The TypeBuilder class uses the TypeAttributes enumeration to further specify the characteristics of the type to be created:

  • 介面是使用 TypeAttributes.Interface 和屬性來指定 TypeAttributes.AbstractInterfaces are specified using the TypeAttributes.Interface and TypeAttributes.Abstract attributes.

  • 您可以使用屬性指定無法擴充) (類別的實體類別 TypeAttributes.SealedConcrete classes (classes that cannot be extended) are specified using the TypeAttributes.Sealed attribute.

  • 數個屬性會決定類型可見度。Several attributes determine type visibility. 請參閱列舉的描述 TypeAttributesSee the description of the TypeAttributes enumeration.

  • 如果 TypeAttributes.SequentialLayout 指定了,則類別載入器會依照從中繼資料讀取的順序來配置欄位。If TypeAttributes.SequentialLayout is specified, the class loader lays out fields in the order they are read from metadata. 類別載入器會考慮指定的封裝大小,但會忽略任何指定的欄位位移。The class loader considers the specified packing size but ignores any specified field offsets. 中繼資料會保留字段定義的發出順序。The metadata preserves the order in which the field definitions are emitted. 即使是跨合併,中繼資料也不會重新排欄欄位定義。Even across a merge, the metadata will not reorder the field definitions. 只有在指定時,載入器才會接受指定的欄位位移 TypeAttributes.ExplicitLayoutThe loader will honor the specified field offsets only if TypeAttributes.ExplicitLayout is specified.

已知問題Known Issues

  • 反映發出不會驗證實介面的非抽象類別是否已執行介面中宣告的所有方法。Reflection emit does not verify whether a non-abstract class that implements an interface has implemented all the methods declared in the interface. 但是,如果類別未執行介面中宣告的所有方法,則執行時間不會載入類別。However, if the class does not implement all the methods declared in an interface, the runtime does not load the class.

  • 雖然 TypeBuilder 是衍生自,但在類別 Type 中定義的某些抽象方法 Type 不會在類別中完整實作為 TypeBuilderAlthough TypeBuilder is derived from Type, some of the abstract methods defined in the Type class are not fully implemented in the TypeBuilder class. 這些 TypeBuilder 方法的呼叫會擲回 NotSupportedException 例外狀況。Calls to these TypeBuilder methods throw a NotSupportedException exception. 您可以使用或來抓取已建立的型別,以取得所需的功能 Type.GetType Assembly.GetType ,並反映在抓取的型別上。The desired functionality can be obtained by retrieving the created type using the Type.GetType or Assembly.GetType and reflecting on the retrieved type.

建構函式

TypeBuilder()

欄位

UnspecifiedTypeSize

代表未指定該類型的總大小。Represents that total size for the type is not specified.

屬性

Assembly

擷取包含這個類型定義的動態組件。Retrieves the dynamic assembly that contains this type definition.

AssemblyQualifiedName

傳回這個類型的完整名稱,該名稱是由組件的顯示名稱所限定。Returns the full name of this type qualified by the display name of the assembly.

Attributes
Attributes

取得與 Type 關聯的屬性。Gets the attributes associated with the Type.

(繼承來源 Type)
Attributes (繼承來源 TypeInfo)
BaseType

擷取這個類型的基底類型。Retrieves the base type of this type.

ContainsGenericParameters
ContainsGenericParameters

取得值,該值指出目前的 Type 物件是否有尚未被特定類型取代的類型參數。Gets a value indicating whether the current Type object has type parameters that have not been replaced by specific types.

(繼承來源 Type)
ContainsGenericParameters (繼承來源 TypeInfo)
CustomAttributes

取得包含此成員之自訂屬性的集合。Gets a collection that contains this member's custom attributes.

(繼承來源 MemberInfo)
DeclaredConstructors

取得目前類型所宣告之建構函式的集合。Gets a collection of the constructors declared by the current type.

(繼承來源 TypeInfo)
DeclaredEvents

取得目前類型所定義之事件的集合。Gets a collection of the events defined by the current type.

(繼承來源 TypeInfo)
DeclaredFields

取得目前類型所定義之欄位的集合。Gets a collection of the fields defined by the current type.

(繼承來源 TypeInfo)
DeclaredMembers

取得目前類型所定義之成員的集合。Gets a collection of the members defined by the current type.

(繼承來源 TypeInfo)
DeclaredMethods

取得目前類型所定義之方法的集合。Gets a collection of the methods defined by the current type.

(繼承來源 TypeInfo)
DeclaredNestedTypes

取得目前類型所定義之巢狀類型的集合。Gets a collection of the nested types defined by the current type.

(繼承來源 TypeInfo)
DeclaredProperties

取得目前類型所定義之屬性的集合。Gets a collection of the properties defined by the current type.

(繼承來源 TypeInfo)
DeclaringMethod

取得宣告目前泛型型別參數的方法。Gets the method that declared the current generic type parameter.

DeclaringMethod

如果目前的 MethodBase 表示泛型方法的型別參數,則取得表示宣告方法的 TypeGets a MethodBase that represents the declaring method, if the current Type represents a type parameter of a generic method.

(繼承來源 Type)
DeclaringMethod (繼承來源 TypeInfo)
DeclaringType

傳回宣告這個類型的類型。Returns the type that declared this type.

DeclaringType

取得宣告目前巢狀類型或泛型型別參數的類型。Gets the type that declares the current nested type or generic type parameter.

(繼承來源 Type)
FullName

擷取這個類型的完整路徑。Retrieves the full path of this type.

GenericParameterAttributes

取得值,指出目前泛型類型參數的共變數與特殊條件約束。Gets a value that indicates the covariance and special constraints of the current generic type parameter.

GenericParameterAttributes

取得一組 GenericParameterAttributes 旗標,敘述目前泛型類型參數的共變數與特殊條件約束。Gets a combination of GenericParameterAttributes flags that describe the covariance and special constraints of the current generic type parameter.

(繼承來源 Type)
GenericParameterAttributes (繼承來源 TypeInfo)
GenericParameterPosition

取得型別參數在宣告參數的泛型類型之型別參數清單中的位置。Gets the position of a type parameter in the type parameter list of the generic type that declared the parameter.

GenericParameterPosition

Type 物件表示泛型類型或泛型方法的類型參數時,在宣告參數的泛型類型或泛型方法之類型參數清單中,取得類型參數的位置。Gets the position of the type parameter in the type parameter list of the generic type or method that declared the parameter, when the Type object represents a type parameter of a generic type or a generic method.

(繼承來源 Type)
GenericParameterPosition (繼承來源 TypeInfo)
GenericTypeArguments
GenericTypeArguments

取得此類型之泛型類型引數的陣列。Gets an array of the generic type arguments for this type.

(繼承來源 Type)
GenericTypeArguments (繼承來源 TypeInfo)
GenericTypeParameters

取得目前執行個體之泛型類型的陣列。Gets an array of the generic type parameters of the current instance.

(繼承來源 TypeInfo)
GUID

擷取這個類型的 GUID。Retrieves the GUID of this type.

HasElementType

取得值,指出目前 Type 是否內含或參考其他類型;也就是說,目前 Type 是否為陣列、指標或以傳址方式傳遞。Gets a value indicating whether the current Type encompasses or refers to another type; that is, whether the current Type is an array, a pointer, or is passed by reference.

(繼承來源 Type)
HasElementType (繼承來源 TypeInfo)
ImplementedInterfaces

取得目前類型所實作之介面的集合。Gets a collection of the interfaces implemented by the current type.

(繼承來源 TypeInfo)
IsAbstract

取得值,指出 Type 是否為抽象並且必須被覆寫。Gets a value indicating whether the Type is abstract and must be overridden.

(繼承來源 Type)
IsAbstract (繼承來源 TypeInfo)
IsAnsiClass

取得值,指出是否為 AnsiClass 選取字串格式屬性 TypeGets a value indicating whether the string format attribute AnsiClass is selected for the Type.

(繼承來源 Type)
IsAnsiClass (繼承來源 TypeInfo)
IsArray

取得值,以表示類型是否為陣列。Gets a value that indicates whether the type is an array.

(繼承來源 Type)
IsArray (繼承來源 TypeInfo)
IsAutoClass

取得值,指出是否為 AutoClass 選取字串格式屬性 TypeGets a value indicating whether the string format attribute AutoClass is selected for the Type.

(繼承來源 Type)
IsAutoClass (繼承來源 TypeInfo)
IsAutoLayout

取得表示目前類型的欄位是否已由 Common Language Runtime 自動配置版面的值。Gets a value indicating whether the fields of the current type are laid out automatically by the common language runtime.

(繼承來源 Type)
IsAutoLayout (繼承來源 TypeInfo)
IsByRef

取得值,指出 Type 是否以傳址方式傳遞。Gets a value indicating whether the Type is passed by reference.

(繼承來源 Type)
IsByRef (繼承來源 TypeInfo)
IsByRefLike
IsByRefLike

取得值,指出類型是否為 byref-like 結構。Gets a value that indicates whether the type is a byref-like structure.

(繼承來源 Type)
IsClass

取得值,表示 Type 是類別或委派,也就是非實值類型或介面。Gets a value indicating whether the Type is a class or a delegate; that is, not a value type or interface.

(繼承來源 Type)
IsClass (繼承來源 TypeInfo)
IsCollectible

取得指出此 MemberInfo 物件是否為可回收 AssemblyLoadContext 中保存之組件一部分的值。Gets a value that indicates whether this MemberInfo object is part of an assembly held in a collectible AssemblyLoadContext.

(繼承來源 MemberInfo)
IsCOMObject

取得值,指出 Type 是否為 COM 物件。Gets a value indicating whether the Type is a COM object.

(繼承來源 Type)
IsCOMObject (繼承來源 TypeInfo)
IsConstructedGenericType

取得值,指出這個物件是否表示建構的泛型類型。Gets a value that indicates whether this object represents a constructed generic type.

IsConstructedGenericType

取得值,指出這個物件是否表示建構的泛型類型。Gets a value that indicates whether this object represents a constructed generic type. 您可以建立已建構之泛型類型的執行個體。You can create instances of a constructed generic type.

(繼承來源 Type)
IsContextful

取得值,指出在內容中是否可以裝載 TypeGets a value indicating whether the Type can be hosted in a context.

(繼承來源 Type)
IsEnum
IsEnum

取得值,指出目前的 Type 是否表示列舉類型。Gets a value indicating whether the current Type represents an enumeration.

(繼承來源 Type)
IsEnum (繼承來源 TypeInfo)
IsExplicitLayout

取得表示目前類型的欄位是否已在明確指定之位移配置版面的值。Gets a value indicating whether the fields of the current type are laid out at explicitly specified offsets.

(繼承來源 Type)
IsExplicitLayout (繼承來源 TypeInfo)
IsGenericMethodParameter

取得值,指出目前的 Type 是否在泛型方法的定義中代表型別參數。Gets a value that indicates whether the current Type represents a type parameter in the definition of a generic method.

(繼承來源 Type)
IsGenericParameter

取得值,指出目前類型是否為泛型類型參數。Gets a value indicating whether the current type is a generic type parameter.

IsGenericParameter

取得值,指出目前的 Type 是否表示泛型類型或泛型方法定義中的類型參數。Gets a value indicating whether the current Type represents a type parameter in the definition of a generic type or method.

(繼承來源 Type)
IsGenericParameter (繼承來源 TypeInfo)
IsGenericType

取得值,指出目前類型是否為泛型類型。Gets a value indicating whether the current type is a generic type.

IsGenericType

取得值,指出目前類型是否為泛型類型。Gets a value indicating whether the current type is a generic type.

(繼承來源 Type)
IsGenericType (繼承來源 TypeInfo)
IsGenericTypeDefinition

取得值,指出目前的 TypeBuilder 是否代表可用於建構其他泛型類型的泛型類型定義。Gets a value indicating whether the current TypeBuilder represents a generic type definition from which other generic types can be constructed.

IsGenericTypeDefinition

取得值,指出目前的 Type 是否表示可用於建構其他泛型類型的泛型類型定義。Gets a value indicating whether the current Type represents a generic type definition, from which other generic types can be constructed.

(繼承來源 Type)
IsGenericTypeDefinition (繼承來源 TypeInfo)
IsGenericTypeParameter

取得值,指出目前的 Type 是否在泛型型別的定義中代表型別參數。Gets a value that indicates whether the current Type represents a type parameter in the definition of a generic type.

(繼承來源 Type)
IsImport

取得值,指出 Type 是否套用了 ComImportAttribute 屬性 (Attribute),亦即其是否從 COM 類型程式庫匯入。Gets a value indicating whether the Type has a ComImportAttribute attribute applied, indicating that it was imported from a COM type library.

(繼承來源 Type)
IsImport (繼承來源 TypeInfo)
IsInterface

取得值,指出 Type 是否為介面;也就是說,不是類別或實值類型。Gets a value indicating whether the Type is an interface; that is, not a class or a value type.

(繼承來源 Type)
IsInterface (繼承來源 TypeInfo)
IsLayoutSequential

取得表示目前類型的欄位是否已依為其定義或發出至中繼資料之順序,循序配置版面的值。Gets a value indicating whether the fields of the current type are laid out sequentially, in the order that they were defined or emitted to the metadata.

(繼承來源 Type)
IsLayoutSequential (繼承來源 TypeInfo)
IsMarshalByRef

取得值,指出 Type 是否以傳址方式封送處理。Gets a value indicating whether the Type is marshaled by reference.

(繼承來源 Type)
IsMarshalByRef (繼承來源 TypeInfo)
IsNested

取得值,表示目前的 Type 物件代表的類型之定義是否位於另一個類型的定義內部。Gets a value indicating whether the current Type object represents a type whose definition is nested inside the definition of another type.

(繼承來源 Type)
IsNested (繼承來源 TypeInfo)
IsNestedAssembly

取得值,指出 Type 是否為巢狀,並只在它自己的組件內為可見。Gets a value indicating whether the Type is nested and visible only within its own assembly.

(繼承來源 Type)
IsNestedAssembly (繼承來源 TypeInfo)
IsNestedFamANDAssem

取得值,指出 Type 是否為巢狀,並只對同時屬於它自己家族和它自己組件的類別為可見。Gets a value indicating whether the Type is nested and visible only to classes that belong to both its own family and its own assembly.

(繼承來源 Type)
IsNestedFamANDAssem (繼承來源 TypeInfo)
IsNestedFamily

取得值,指出 Type 是否為巢狀,並只在它自己的系列內為可見。Gets a value indicating whether the Type is nested and visible only within its own family.

(繼承來源 Type)
IsNestedFamily (繼承來源 TypeInfo)
IsNestedFamORAssem

取得值,指出 Type 是否為巢狀並只對屬於它自己家族或它自己組件的類別為可見。Gets a value indicating whether the Type is nested and visible only to classes that belong to either its own family or to its own assembly.

(繼承來源 Type)
IsNestedFamORAssem (繼承來源 TypeInfo)
IsNestedPrivate

取得值,指出 Type 是否為巢狀並且宣告為私用。Gets a value indicating whether the Type is nested and declared private.

(繼承來源 Type)
IsNestedPrivate (繼承來源 TypeInfo)
IsNestedPublic

取得值,指出類別是否為巢狀 (Nest) 並且宣告為公用 (Public)。Gets a value indicating whether a class is nested and declared public.

(繼承來源 Type)
IsNestedPublic (繼承來源 TypeInfo)
IsNotPublic

取得值,指出 Type 是否未宣告為公用。Gets a value indicating whether the Type is not declared public.

(繼承來源 Type)
IsNotPublic (繼承來源 TypeInfo)
IsPointer

取得值,指出 Type 是否為指標。Gets a value indicating whether the Type is a pointer.

(繼承來源 Type)
IsPointer (繼承來源 TypeInfo)
IsPrimitive

取得值,指出 Type 是否為其中一個基本類型 (Primitive Type)。Gets a value indicating whether the Type is one of the primitive types.

(繼承來源 Type)
IsPrimitive (繼承來源 TypeInfo)
IsPublic

取得值,指出 Type 是否宣告為公用。Gets a value indicating whether the Type is declared public.

(繼承來源 Type)
IsPublic (繼承來源 TypeInfo)
IsSealed

取得值,指出 Type 是否宣告為密封。Gets a value indicating whether the Type is declared sealed.

(繼承來源 Type)
IsSealed (繼承來源 TypeInfo)
IsSecurityCritical

取得值,這個值表示目前類型是否為安全性關鍵或安全性安全關鍵,因而可以執行重要的作業。Gets a value that indicates whether the current type is security-critical or security-safe-critical, and therefore can perform critical operations.

IsSecurityCritical

取得值,這個值表示目前類型在目前信任層級上是否為安全性關鍵或安全性安全關鍵,因而可以執行重要的作業。Gets a value that indicates whether the current type is security-critical or security-safe-critical at the current trust level, and therefore can perform critical operations.

(繼承來源 Type)
IsSecuritySafeCritical

取得值,這個值表示目前類型是否為安全性安全關鍵,也就是說,它是否能執行重要作業並由安全性透明的程式碼存取。Gets a value that indicates whether the current type is security-safe-critical; that is, whether it can perform critical operations and can be accessed by transparent code.

IsSecuritySafeCritical

取得值,這個值表示目前類型在目前信任層級上是否為安全性安全關鍵,也就是說,它是否能執行重要作業並由安全性透明的程式碼存取。Gets a value that indicates whether the current type is security-safe-critical at the current trust level; that is, whether it can perform critical operations and can be accessed by transparent code.

(繼承來源 Type)
IsSecurityTransparent

取得值,這個值表示目前類型是否為透明,因此無法執行重要作業。Gets a value that indicates whether the current type is transparent, and therefore cannot perform critical operations.

IsSecurityTransparent

取得值,這個值表示目前類型在目前信任層級上是否為透明,因此無法執行重要作業。Gets a value that indicates whether the current type is transparent at the current trust level, and therefore cannot perform critical operations.

(繼承來源 Type)
IsSerializable
IsSerializable

取得值,指出 Type 是否可序列化。Gets a value indicating whether the Type is serializable.

(繼承來源 Type)
IsSerializable (繼承來源 TypeInfo)
IsSignatureType

取得值,指出類型是否為特徵標記類型。Gets a value that indicates whether the type is a signature type.

(繼承來源 Type)
IsSpecialName

取得值,表示類型是否具有需要特殊處理的名稱。Gets a value indicating whether the type has a name that requires special handling.

(繼承來源 Type)
IsSpecialName (繼承來源 TypeInfo)
IsSZArray
IsSZArray

取得值,指出類型是否為陣列類型,且只能代表下限為零的一維陣列。Gets a value that indicates whether the type is an array type that can represent only a single-dimensional array with a zero lower bound.

(繼承來源 Type)
IsTypeDefinition
IsTypeDefinition

取得值,指出類型是否為類型定義。Gets a value that indicates whether the type is a type definition.

(繼承來源 Type)
IsUnicodeClass

取得值,指出是否為 UnicodeClass 選取字串格式屬性 TypeGets a value indicating whether the string format attribute UnicodeClass is selected for the Type.

(繼承來源 Type)
IsUnicodeClass (繼承來源 TypeInfo)
IsValueType

取得值,指出 Type 是否為實值類型。Gets a value indicating whether the Type is a value type.

(繼承來源 Type)
IsValueType (繼承來源 TypeInfo)
IsVariableBoundArray
IsVariableBoundArray

取得值,指出類型是否為陣列類型,且可代表多維陣列或任意下限的陣列。Gets a value that indicates whether the type is an array type that can represent a multi-dimensional array or an array with an arbitrary lower bound.

(繼承來源 Type)
IsVisible

取得一個值,表示位於組件之外的程式碼是否能存取 TypeGets a value indicating whether the Type can be accessed by code outside the assembly.

(繼承來源 Type)
IsVisible (繼承來源 TypeInfo)
MemberType

取得一個 MemberTypes 值,代表這個成員是類型或巢狀類型。Gets a MemberTypes value indicating that this member is a type or a nested type.

(繼承來源 Type)
MemberType (繼承來源 TypeInfo)
MetadataToken

取得值,這個值可識別中繼資料項目。Gets a value that identifies a metadata element.

(繼承來源 MemberInfo)
Module

擷取包含這個類型定義的動態模組。Retrieves the dynamic module that contains this type definition.

Name

擷取這個類型的名稱。Retrieves the name of this type.

Namespace

擷取定義這個 TypeBuilder 的命名空間。Retrieves the namespace where this TypeBuilder is defined.

PackingSize

擷取這個類型的封裝大小。Retrieves the packing size of this type.

ReflectedType

傳回用來取得這個類型的類型。Returns the type that was used to obtain this type.

ReflectedType

取得類別物件,是用來取得這個 MemberInfo 的執行個體。Gets the class object that was used to obtain this instance of MemberInfo.

(繼承來源 MemberInfo)
ReflectedType

取得用來取得這個成員的類別物件。Gets the class object that was used to obtain this member.

(繼承來源 Type)
Size

擷取類型的總大小。Retrieves the total size of a type.

StructLayoutAttribute

取得描述目前類型配置的 StructLayoutAttributeGets a StructLayoutAttribute that describes the layout of the current type.

(繼承來源 Type)
StructLayoutAttribute (繼承來源 TypeInfo)
TypeHandle

在動態模組中不支援。Not supported in dynamic modules.

TypeHandle

取得目前 Type 的控制代碼。Gets the handle for the current Type.

(繼承來源 Type)
TypeInitializer

取得類型的初始設定式。Gets the initializer for the type.

(繼承來源 Type)
TypeInitializer (繼承來源 TypeInfo)
TypeToken

傳回這個類型的類型語彙基元。Returns the type token of this type.

UnderlyingSystemType

傳回這個 TypeBuilder 的基礎系統類型。Returns the underlying system type for this TypeBuilder.

UnderlyingSystemType (繼承來源 TypeInfo)

方法

AddDeclarativeSecurity(SecurityAction, PermissionSet)

加入此類型的宣告式安全性。Adds declarative security to this type.

AddInterfaceImplementation(Type)

加入這個類型所實作的介面。Adds an interface that this type implements.

AsType()

Type 物件方式傳回目前類型。Returns the current type as a Type object.

(繼承來源 TypeInfo)
CreateType()

建立這個類別的 Type 物件。Creates a Type object for the class. 定義類別上的欄位和方法之後,呼叫 CreateType 以載入其 Type 物件。After defining fields and methods on the class, CreateType is called in order to load its Type object.

CreateTypeInfo()

取得代表這個類型的 TypeInfo 物件。Gets a TypeInfo object that represents this type.

DefineConstructor(MethodAttributes, CallingConventions, Type[])

將新的建構函式加入此類型,並指定屬性和簽章。Adds a new constructor to the type, with the given attributes and signature.

DefineConstructor(MethodAttributes, CallingConventions, Type[], Type[][], Type[][])

將新的建構函式加入此類型,並指定屬性、簽章和自訂修飾詞。Adds a new constructor to the type, with the given attributes, signature, and custom modifiers.

DefineDefaultConstructor(MethodAttributes)

定義無參數建構函式。Defines the parameterless constructor. 這裡所定義建構函式只會呼叫父代的無參數建構函式。The constructor defined here will simply call the parameterless constructor of the parent.

DefineEvent(String, EventAttributes, Type)

將新事件加入此類型,並指定其名稱、屬性和事件類型。Adds a new event to the type, with the given name, attributes and event type.

DefineField(String, Type, FieldAttributes)

將新欄位加入類型,指定其名稱、屬性和欄位類型。Adds a new field to the type, with the given name, attributes, and field type.

DefineField(String, Type, Type[], Type[], FieldAttributes)

將新欄位加入此類型,並指定其名稱、屬性、欄位類型和自訂修飾詞。Adds a new field to the type, with the given name, attributes, field type, and custom modifiers.

DefineGenericParameters(String[])

定義目前類型的泛型類型參數,即指定其數目和名稱,並傳回可設定其條件約束的 GenericTypeParameterBuilder 物件的陣列。Defines the generic type parameters for the current type, specifying their number and their names, and returns an array of GenericTypeParameterBuilder objects that can be used to set their constraints.

DefineInitializedData(String, Byte[], FieldAttributes)

在可攜式執行檔 (PE) 的 .sdata 區段中定義初始化資料欄位。Defines initialized data field in the .sdata section of the portable executable (PE) file.

DefineMethod(String, MethodAttributes)

將新方法加入此類型,並指定其名稱和方法屬性。Adds a new method to the type, with the specified name and method attributes.

DefineMethod(String, MethodAttributes, CallingConventions)

將新方法加入類型,並指定其名稱、方法屬性和呼叫慣例。Adds a new method to the type, with the specified name, method attributes, and calling convention.

DefineMethod(String, MethodAttributes, CallingConventions, Type, Type[])

將新方法加入此類型,含指定名稱、方法屬性、呼叫慣例和方法簽章。Adds a new method to the type, with the specified name, method attributes, calling convention, and method signature.

DefineMethod(String, MethodAttributes, CallingConventions, Type, Type[], Type[], Type[], Type[][], Type[][])

將新方法加入此類型,含指定名稱、方法屬性、呼叫慣例、方法簽章和自訂修飾詞。Adds a new method to the type, with the specified name, method attributes, calling convention, method signature, and custom modifiers.

DefineMethod(String, MethodAttributes, Type, Type[])

將新方法加入此類型中,含指定名稱、方法屬性和方法簽章。Adds a new method to the type, with the specified name, method attributes, and method signature.

DefineMethodOverride(MethodInfo, MethodInfo)

指定實作給定方法宣告的給定方法主體,可能會使用其他名稱。Specifies a given method body that implements a given method declaration, potentially with a different name.

DefineNestedType(String)

定義巢狀類型,並指定其名稱。Defines a nested type, given its name.

DefineNestedType(String, TypeAttributes)

定義巢狀類型,並指定其名稱及屬性。Defines a nested type, given its name and attributes.

DefineNestedType(String, TypeAttributes, Type)

定義巢狀類型,並指定其名稱、屬性和擴充的類型。Defines a nested type, given its name, attributes, and the type that it extends.

DefineNestedType(String, TypeAttributes, Type, Int32)

定義巢狀型別,指定其名稱、屬性、型別的總大小及其擴充的型別。Defines a nested type, given its name, attributes, the total size of the type, and the type that it extends.

DefineNestedType(String, TypeAttributes, Type, PackingSize)

定義巢狀類型,並指定其名稱、屬性、擴充的類型和封裝大小。Defines a nested type, given its name, attributes, the type that it extends, and the packing size.

DefineNestedType(String, TypeAttributes, Type, PackingSize, Int32)

定義巢狀類型,並指定其名稱、屬性、大小和擴充的類型。Defines a nested type, given its name, attributes, size, and the type that it extends.

DefineNestedType(String, TypeAttributes, Type, Type[])

定義巢狀類型,並指定其名稱、屬性、擴充的類型和實作的介面。Defines a nested type, given its name, attributes, the type that it extends, and the interfaces that it implements.

DefinePInvokeMethod(String, String, MethodAttributes, CallingConventions, Type, Type[], CallingConvention, CharSet)

定義 PInvoke 方法指定名稱、方法定義所在的 DLL 名稱、方法的屬性、方法的呼叫慣例、方法的傳回類型、方法的參數類型和 PInvoke 旗標。Defines a PInvoke method given its name, the name of the DLL in which the method is defined, the attributes of the method, the calling convention of the method, the return type of the method, the types of the parameters of the method, and the PInvoke flags.

DefinePInvokeMethod(String, String, String, MethodAttributes, CallingConventions, Type, Type[], CallingConvention, CharSet)

定義 PInvoke 方法指定名稱、方法定義所在的 DLL 名稱、進入點名稱、方法的屬性、方法的呼叫慣例、方法的傳回類型、方法的參數類型和 PInvoke 旗標。Defines a PInvoke method given its name, the name of the DLL in which the method is defined, the name of the entry point, the attributes of the method, the calling convention of the method, the return type of the method, the types of the parameters of the method, and the PInvoke flags.

DefinePInvokeMethod(String, String, String, MethodAttributes, CallingConventions, Type, Type[], Type[], Type[], Type[][], Type[][], CallingConvention, CharSet)

定義 PInvoke 方法,方法是指定其名稱、方法定義所在的 DLL 名稱、進入點名稱、方法的屬性、方法的呼叫慣例、方法的傳回類型、方法的參數類型、PInvoke 旗標和這些參數與傳回類型的自訂修飾詞。Defines a PInvoke method given its name, the name of the DLL in which the method is defined, the name of the entry point, the attributes of the method, the calling convention of the method, the return type of the method, the types of the parameters of the method, the PInvoke flags, and custom modifiers for the parameters and return type.

DefineProperty(String, PropertyAttributes, CallingConventions, Type, Type[])

將新屬性加入具有指定名稱、屬性、呼叫慣例和屬性簽章的類型。Adds a new property to the type, with the given name, attributes, calling convention, and property signature.

DefineProperty(String, PropertyAttributes, CallingConventions, Type, Type[], Type[], Type[], Type[][], Type[][])

將新屬性加入具有指定名稱、呼叫慣例、屬性簽章和自訂修飾詞的類型。Adds a new property to the type, with the given name, calling convention, property signature, and custom modifiers.

DefineProperty(String, PropertyAttributes, Type, Type[])

以指定名稱和屬性簽章將新屬性加入此類型。Adds a new property to the type, with the given name and property signature.

DefineProperty(String, PropertyAttributes, Type, Type[], Type[], Type[], Type[][], Type[][])

將新屬性加入具有指定名稱、屬性簽章和自訂修飾詞的類型。Adds a new property to the type, with the given name, property signature, and custom modifiers.

DefineTypeInitializer()

定義這個類型的初始設定式。Defines the initializer for this type.

DefineUninitializedData(String, Int32, FieldAttributes)

在可攜式執行檔 (PE) 的 .sdata 區段中定義未初始化的資料欄位。Defines an uninitialized data field in the .sdata section of the portable executable (PE) file.

Equals(Object)

判斷目前 Type 物件的基礎系統類型,是否與指定的 Object 的基礎系統類型相同。Determines if the underlying system type of the current Type object is the same as the underlying system type of the specified Object.

(繼承來源 Type)
Equals(Object)

傳回值,這個值指出此執行個體是否與指定的物件相等。Returns a value that indicates whether this instance is equal to a specified object.

(繼承來源 MemberInfo)
Equals(Type)

判斷目前 Type 的基礎系統類型,是否與指定的 Type 之基礎系統類型相同。Determines if the underlying system type of the current Type is the same as the underlying system type of the specified Type.

(繼承來源 Type)
FindInterfaces(TypeFilter, Object)

傳回 Type 物件的陣列,表示由目前 Type 所實作或繼承的介面的篩選清單。Returns an array of Type objects representing a filtered list of interfaces implemented or inherited by the current Type.

(繼承來源 Type)
FindInterfaces(TypeFilter, Object) (繼承來源 TypeInfo)
FindMembers(MemberTypes, BindingFlags, MemberFilter, Object)

傳回指定成員類型的 MemberInfo 物件的篩選陣列。Returns a filtered array of MemberInfo objects of the specified member type.

(繼承來源 Type)
FindMembers(MemberTypes, BindingFlags, MemberFilter, Object) (繼承來源 TypeInfo)
GetArrayRank()
GetArrayRank()

取得陣列中的維度數目。Gets the number of dimensions in an array.

(繼承來源 Type)
GetArrayRank() (繼承來源 TypeInfo)
GetAttributeFlagsImpl()

在衍生類別中覆寫時,實作 Attributes 屬性 (Property) 並取得列舉值的位元組合,以指出與 Type 建立關聯的屬性 (Attribute)。When overridden in a derived class, implements the Attributes property and gets a bitwise combination of enumeration values that indicate the attributes associated with the Type.

(繼承來源 Type)
GetConstructor(BindingFlags, Binder, CallingConventions, Type[], ParameterModifier[])

使用指定的繫結條件約束和指定的呼叫慣例,搜尋其參數符合指定的引數類型和修飾詞的建構函式。Searches for a constructor whose parameters match the specified argument types and modifiers, using the specified binding constraints and the specified calling convention.

(繼承來源 Type)
GetConstructor(BindingFlags, Binder, Type[], ParameterModifier[])

使用指定的繫結條件約束 (Constraint) 搜尋其參數符合指定的引數類型和修飾詞 (Modifier) 的建構函式。Searches for a constructor whose parameters match the specified argument types and modifiers, using the specified binding constraints.

(繼承來源 Type)
GetConstructor(Type, ConstructorInfo)

傳回指定建構泛型類型的建構函式,其對應於泛型類型定義的指定建構函式。Returns the constructor of the specified constructed generic type that corresponds to the specified constructor of the generic type definition.

GetConstructor(Type[])

搜尋其參數符合在指定陣列中的類型的公用執行個體建構函式。Searches for a public instance constructor whose parameters match the types in the specified array.

(繼承來源 Type)
GetConstructor(Type[]) (繼承來源 TypeInfo)
GetConstructorImpl(BindingFlags, Binder, CallingConventions, Type[], ParameterModifier[])

在衍生類別中覆寫時,使用指定的繫結條件約束和指定的呼叫慣例,搜尋其參數符合指定的引數類型和修飾詞的建構函式。When overridden in a derived class, searches for a constructor whose parameters match the specified argument types and modifiers, using the specified binding constraints and the specified calling convention.

(繼承來源 Type)
GetConstructors()

傳回所有定義給目前 Type 的公用建構函式。Returns all the public constructors defined for the current Type.

(繼承來源 Type)
GetConstructors() (繼承來源 TypeInfo)
GetConstructors(BindingFlags)

依指定傳回 ConstructorInfo 物件的陣列,代表為這個類別所定義的公用和非公用建構函式。Returns an array of ConstructorInfo objects representing the public and non-public constructors defined for this class, as specified.

GetConstructors(BindingFlags) (繼承來源 TypeInfo)
GetCustomAttributes(Boolean)

傳回為這個類型定義的所有自訂屬性。Returns all the custom attributes defined for this type.

GetCustomAttributes(Boolean)

在衍生類別中覆寫時,傳回套用至此成員之所有自訂屬性的陣列。When overridden in a derived class, returns an array of all custom attributes applied to this member.

(繼承來源 MemberInfo)
GetCustomAttributes(Type, Boolean)

傳回可指派給指定類型之目前類型的所有自訂屬性。Returns all the custom attributes of the current type that are assignable to a specified type.

GetCustomAttributes(Type, Boolean)

當在衍生的類別中覆寫時,會傳回套用至這個成員的自訂屬性陣列,並以 Type 識別。When overridden in a derived class, returns an array of custom attributes applied to this member and identified by Type.

(繼承來源 MemberInfo)
GetCustomAttributesData()

傳回 CustomAttributeData 物件的清單,表示已套用至目標成員之屬性的資料。Returns a list of CustomAttributeData objects representing data about the attributes that have been applied to the target member.

(繼承來源 MemberInfo)
GetDeclaredEvent(String)

傳回物件,此物件代表目前類型所宣告的指定公用事件。Returns an object that represents the specified public event declared by the current type.

(繼承來源 TypeInfo)
GetDeclaredField(String)

傳回物件,此物件代表目前類型所宣告的指定公用欄位。Returns an object that represents the specified public field declared by the current type.

(繼承來源 TypeInfo)
GetDeclaredMethod(String)

傳回物件,此物件代表目前類型所宣告的指定公用方法。Returns an object that represents the specified public method declared by the current type.

(繼承來源 TypeInfo)
GetDeclaredMethods(String)

傳回集合,其中包含所有在目前類型宣告之所有公用方法中符合指定名稱者。Returns a collection that contains all public methods declared on the current type that match the specified name.

(繼承來源 TypeInfo)
GetDeclaredNestedType(String)

傳回物件,此物件代表目前類型所宣告的指定公用巢狀類型。Returns an object that represents the specified public nested type declared by the current type.

(繼承來源 TypeInfo)
GetDeclaredProperty(String)

傳回物件,此物件代表目前類型所宣告的指定公用屬性。Returns an object that represents the specified public property declared by the current type.

(繼承來源 TypeInfo)
GetDefaultMembers()

搜尋定義給目前 Type 的成員,而它的 DefaultMemberAttribute 已設定。Searches for the members defined for the current Type whose DefaultMemberAttribute is set.

(繼承來源 Type)
GetDefaultMembers() (繼承來源 TypeInfo)
GetElementType()

呼叫這個方法一律會擲回 NotSupportedExceptionCalling this method always throws NotSupportedException.

GetEnumName(Object)

針對目前的列舉類型,傳回具有指定值之常數的名稱。Returns the name of the constant that has the specified value, for the current enumeration type.

(繼承來源 Type)
GetEnumName(Object) (繼承來源 TypeInfo)
GetEnumNames()

傳回目前列舉類型之成員的名稱。Returns the names of the members of the current enumeration type.

(繼承來源 Type)
GetEnumNames() (繼承來源 TypeInfo)
GetEnumUnderlyingType()

傳回目前列舉類型的基礎類型。Returns the underlying type of the current enumeration type.

(繼承來源 Type)
GetEnumUnderlyingType() (繼承來源 TypeInfo)
GetEnumValues()

傳回目前列舉類型中常數的值陣列。Returns an array of the values of the constants in the current enumeration type.

(繼承來源 Type)
GetEnumValues() (繼承來源 TypeInfo)
GetEvent(String)

傳回代表指定公用事件的 EventInfo 物件。Returns the EventInfo object representing the specified public event.

(繼承來源 Type)
GetEvent(String) (繼承來源 TypeInfo)
GetEvent(String, BindingFlags)

傳回具有指定名稱的事件。Returns the event with the specified name.

GetEvent(String, BindingFlags) (繼承來源 TypeInfo)
GetEvents()

傳回由這個方法所宣告或繼承的公用事件。Returns the public events declared or inherited by this type.

GetEvents() (繼承來源 TypeInfo)
GetEvents(BindingFlags)

傳回這個類型所宣告的公用和非公用事件。Returns the public and non-public events that are declared by this type.

GetEvents(BindingFlags) (繼承來源 TypeInfo)
GetField(String)

搜尋具有指定名稱的公用欄位。Searches for the public field with the specified name.

(繼承來源 Type)
GetField(String) (繼承來源 TypeInfo)
GetField(String, BindingFlags)

傳回指定之名稱所指定的欄位。Returns the field specified by the given name.

GetField(String, BindingFlags) (繼承來源 TypeInfo)
GetField(Type, FieldInfo)

傳回對應至泛型類型定義指定欄位的指定建構泛型類型的欄位。Returns the field of the specified constructed generic type that corresponds to the specified field of the generic type definition.

GetFields()

傳回目前 Type 的所有公用欄位。Returns all the public fields of the current Type.

(繼承來源 Type)
GetFields() (繼承來源 TypeInfo)
GetFields(BindingFlags)

傳回這個類型所宣告的公用和非公用欄位。Returns the public and non-public fields that are declared by this type.

GetFields(BindingFlags) (繼承來源 TypeInfo)
GetGenericArguments()

傳回 Type 物件的陣列,這些物件代表泛型類型的型別引數,或泛型類型定義的型別參數。Returns an array of Type objects representing the type arguments of a generic type or the type parameters of a generic type definition.

GetGenericArguments()

傳回 Type 物件的陣列,代表封閉泛型類型的類型引數,或泛型類型定義的類型參數。Returns an array of Type objects that represent the type arguments of a closed generic type or the type parameters of a generic type definition.

(繼承來源 Type)
GetGenericArguments() (繼承來源 TypeInfo)
GetGenericParameterConstraints()
GetGenericParameterConstraints()

傳回由 Type 物件組成的陣列,這些物件代表對目前泛型類型參數所設下的條件約束。Returns an array of Type objects that represent the constraints on the current generic type parameter.

(繼承來源 Type)
GetGenericParameterConstraints() (繼承來源 TypeInfo)
GetGenericTypeDefinition()

傳回 Type 物件,代表可從中取得目前類型的泛型類型定義。Returns a Type object that represents a generic type definition from which the current type can be obtained.

GetGenericTypeDefinition()

傳回代表泛型類型定義的 Type 物件,利用此泛型類型定義就可以建構出目前的泛型類型。Returns a Type object that represents a generic type definition from which the current generic type can be constructed.

(繼承來源 Type)
GetGenericTypeDefinition() (繼承來源 TypeInfo)
GetHashCode()

傳回這個執行個體的雜湊碼。Returns the hash code for this instance.

(繼承來源 Type)
GetHashCode()

傳回這個執行個體的雜湊碼。Returns the hash code for this instance.

(繼承來源 MemberInfo)
GetInterface(String)

搜尋具有指定名稱的介面。Searches for the interface with the specified name.

(繼承來源 Type)
GetInterface(String) (繼承來源 TypeInfo)
GetInterface(String, Boolean)

傳回此類別所 (直接或間接) 實作的介面,且完整格式名稱符合指定的介面名稱。Returns the interface implemented (directly or indirectly) by this class with the fully qualified name matching the given interface name.

GetInterface(String, Boolean) (繼承來源 TypeInfo)
GetInterfaceMap(Type)

傳回所要求介面的介面對應。Returns an interface mapping for the requested interface.

GetInterfaceMap(Type)

傳回指定介面類型的介面對應。Returns an interface mapping for the specified interface type.

(繼承來源 Type)
GetInterfaces()

傳回在這個類型及其基底類型上實作之所有介面的陣列。Returns an array of all the interfaces implemented on this type and its base types.

GetInterfaces() (繼承來源 TypeInfo)
GetMember(String)

搜尋具有指定名稱的公用成員。Searches for the public members with the specified name.

(繼承來源 Type)
GetMember(String) (繼承來源 TypeInfo)
GetMember(String, BindingFlags)

使用指定的繫結條件約束搜尋指定的成員。Searches for the specified members, using the specified binding constraints.

(繼承來源 Type)
GetMember(String, BindingFlags) (繼承來源 TypeInfo)
GetMember(String, MemberTypes, BindingFlags)

依指定傳回此類型所宣告或繼承的所有公用和非公用成員。Returns all the public and non-public members declared or inherited by this type, as specified.

GetMember(String, MemberTypes, BindingFlags) (繼承來源 TypeInfo)
GetMembers()

傳回目前 Type 的所有公用成員。Returns all the public members of the current Type.

(繼承來源 Type)
GetMembers() (繼承來源 TypeInfo)
GetMembers(BindingFlags)

傳回這個類型所宣告或繼承的公用和非公用成員之成員。Returns the members for the public and non-public members declared or inherited by this type.

GetMembers(BindingFlags) (繼承來源 TypeInfo)
GetMethod(String)

搜尋具有指定名稱的公用方法。Searches for the public method with the specified name.

(繼承來源 Type)
GetMethod(String) (繼承來源 TypeInfo)
GetMethod(String, BindingFlags)

使用指定的繫結條件約束搜尋指定的方法。Searches for the specified method, using the specified binding constraints.

(繼承來源 Type)
GetMethod(String, BindingFlags) (繼承來源 TypeInfo)
GetMethod(String, BindingFlags, Binder, CallingConventions, Type[], ParameterModifier[])

使用指定的繫結條件約束和指定的呼叫慣例,來搜尋指定的方法,而該方法的參數符合指定的引數類型和修飾詞。Searches for the specified method whose parameters match the specified argument types and modifiers, using the specified binding constraints and the specified calling convention.

(繼承來源 Type)
GetMethod(String, BindingFlags, Binder, Type[], ParameterModifier[])

使用指定的繫結條件約束搜尋指定的方法,而該方法的參數符合指定的引數類型和修飾詞。Searches for the specified method whose parameters match the specified argument types and modifiers, using the specified binding constraints.

(繼承來源 Type)
GetMethod(String, Int32, BindingFlags, Binder, CallingConventions, Type[], ParameterModifier[])

使用指定的繫結限制式和指定的呼叫慣例來搜尋指定的方法,其參數符合指定的泛型參數計數、引數型別及修飾元。Searches for the specified method whose parameters match the specified generic parameter count, argument types and modifiers, using the specified binding constraints and the specified calling convention.

(繼承來源 Type)
GetMethod(String, Int32, BindingFlags, Binder, Type[], ParameterModifier[])

使用指定的繫結限制式來搜尋指定的方法,其參數符合指定的泛型參數計數、引數型別及修飾元。Searches for the specified method whose parameters match the specified generic parameter count, argument types and modifiers, using the specified binding constraints.

(繼承來源 Type)
GetMethod(String, Int32, Type[])

搜尋指定的公用方法,其參數符合指定的泛型參數計數和引數型別。Searches for the specified public method whose parameters match the specified generic parameter count and argument types.

(繼承來源 Type)
GetMethod(String, Int32, Type[], ParameterModifier[])

搜尋指定的公用方法,其參數符合指定的泛型參數計數、引數型別及修飾元。Searches for the specified public method whose parameters match the specified generic parameter count, argument types and modifiers.

(繼承來源 Type)
GetMethod(String, Type[])

搜尋指定的公用方法,其參數符合指定的引數類型。Searches for the specified public method whose parameters match the specified argument types.

(繼承來源 Type)
GetMethod(String, Type[]) (繼承來源 TypeInfo)
GetMethod(String, Type[], ParameterModifier[])

搜尋指定的公用方法,其參數符合指定的引數類型和修飾詞。Searches for the specified public method whose parameters match the specified argument types and modifiers.

(繼承來源 Type)
GetMethod(String, Type[], ParameterModifier[]) (繼承來源 TypeInfo)
GetMethod(Type, MethodInfo)

傳回對應至泛型類型定義指定方法的指定建構泛型類型的方法。Returns the method of the specified constructed generic type that corresponds to the specified method of the generic type definition.

GetMethodImpl(String, BindingFlags, Binder, CallingConventions, Type[], ParameterModifier[])

在衍生類別中覆寫時,使用指定的繫結條件約束和指定的呼叫慣例搜尋指定的方法,而該方法的參數符合指定的引數類型和修飾詞。When overridden in a derived class, searches for the specified method whose parameters match the specified argument types and modifiers, using the specified binding constraints and the specified calling convention.

(繼承來源 Type)
GetMethodImpl(String, Int32, BindingFlags, Binder, CallingConventions, Type[], ParameterModifier[])

在衍生類別中覆寫時,使用指定的繫結限制式和指定的呼叫慣例來搜尋指定的方法,其參數符合指定的泛型參數計數、引數型別及修飾元。When overridden in a derived class, searches for the specified method whose parameters match the specified generic parameter count, argument types and modifiers, using the specified binding constraints and the specified calling convention.

(繼承來源 Type)
GetMethods()

傳回目前 Type 的所有公用方法。Returns all the public methods of the current Type.

(繼承來源 Type)
GetMethods() (繼承來源 TypeInfo)
GetMethods(BindingFlags)

依指定傳回此類型所宣告或繼承的所有公用和非公用方法。Returns all the public and non-public methods declared or inherited by this type, as specified.

GetMethods(BindingFlags) (繼承來源 TypeInfo)
GetNestedType(String)

搜尋具有指定名稱的公用巢狀類型。Searches for the public nested type with the specified name.

(繼承來源 Type)
GetNestedType(String) (繼承來源 TypeInfo)
GetNestedType(String, BindingFlags)

傳回這個類型所宣告的公用和非公用巢狀類型。Returns the public and non-public nested types that are declared by this type.

GetNestedType(String, BindingFlags) (繼承來源 TypeInfo)
GetNestedTypes()

傳回在目前 Type 內形成巢狀的公用類型。Returns the public types nested in the current Type.

(繼承來源 Type)
GetNestedTypes() (繼承來源 TypeInfo)
GetNestedTypes(BindingFlags)

傳回這個類型所宣告或繼承的公用和非公用巢狀類型。Returns the public and non-public nested types that are declared or inherited by this type.

GetNestedTypes(BindingFlags) (繼承來源 TypeInfo)
GetProperties()

傳回目前 Type 的所有公用屬性。Returns all the public properties of the current Type.

(繼承來源 Type)
GetProperties() (繼承來源 TypeInfo)
GetProperties(BindingFlags)

依指定傳回這個類型所宣告或繼承的所有公用和非公用屬性。Returns all the public and non-public properties declared or inherited by this type, as specified.

GetProperties(BindingFlags) (繼承來源 TypeInfo)
GetProperty(String)

搜尋具有指定名稱的公用屬性。Searches for the public property with the specified name.

(繼承來源 Type)
GetProperty(String) (繼承來源 TypeInfo)
GetProperty(String, BindingFlags)

使用指定的繫結條件約束搜尋指定的屬性。Searches for the specified property, using the specified binding constraints.

(繼承來源 Type)
GetProperty(String, BindingFlags) (繼承來源 TypeInfo)
GetProperty(String, BindingFlags, Binder, Type, Type[], ParameterModifier[])

使用指定的繫結條件約束搜尋指定的屬性,而該屬性的參數符合指定的引數類型和修飾詞。Searches for the specified property whose parameters match the specified argument types and modifiers, using the specified binding constraints.

(繼承來源 Type)
GetProperty(String, Type)

搜尋具有指定名稱和傳回類型的公用屬性。Searches for the public property with the specified name and return type.

(繼承來源 Type)
GetProperty(String, Type) (繼承來源 TypeInfo)
GetProperty(String, Type, Type[])

搜尋指定的公用屬性,其參數符合指定的引數類型。Searches for the specified public property whose parameters match the specified argument types.

(繼承來源 Type)
GetProperty(String, Type, Type[]) (繼承來源 TypeInfo)
GetProperty(String, Type, Type[], ParameterModifier[])

搜尋指定的公用屬性,其參數符合指定的引數類型和修飾詞。Searches for the specified public property whose parameters match the specified argument types and modifiers.

(繼承來源 Type)
GetProperty(String, Type, Type[], ParameterModifier[]) (繼承來源 TypeInfo)
GetProperty(String, Type[])

搜尋指定的公用屬性,其參數符合指定的引數類型。Searches for the specified public property whose parameters match the specified argument types.

(繼承來源 Type)
GetProperty(String, Type[]) (繼承來源 TypeInfo)
GetPropertyImpl(String, BindingFlags, Binder, Type, Type[], ParameterModifier[])

在衍生類別中覆寫時,使用指定的繫結條件約束搜尋指定的屬性,而該屬性的參數符合指定的引數類型和修飾詞的建構函式。When overridden in a derived class, searches for the specified property whose parameters match the specified argument types and modifiers, using the specified binding constraints.

(繼承來源 Type)
GetType()

取得目前的 TypeGets the current Type.

(繼承來源 Type)
GetType()

探索成員的屬性並提供成員中繼資料的存取。Discovers the attributes of a member and provides access to member metadata.

(繼承來源 MemberInfo)
GetTypeCodeImpl()

傳回此 Type 執行個體的基礎型別碼。Returns the underlying type code of this Type instance.

(繼承來源 Type)
HasElementTypeImpl()

在衍生類別中覆寫時,實作 HasElementType 屬性並判斷目前 Type 是否內含或參考其他類型;也就是說,目前 Type 是否為陣列、指標或以傳址方式傳遞。When overridden in a derived class, implements the HasElementType property and determines whether the current Type encompasses or refers to another type; that is, whether the current Type is an array, a pointer, or is passed by reference.

(繼承來源 Type)
HasSameMetadataDefinitionAs(MemberInfo) (繼承來源 MemberInfo)
InvokeMember(String, BindingFlags, Binder, Object, Object[])

使用指定的繫結條件約束並符合指定的引數清單,來叫用指定的成員。Invokes the specified member, using the specified binding constraints and matching the specified argument list.

(繼承來源 Type)
InvokeMember(String, BindingFlags, Binder, Object, Object[], CultureInfo)

使用指定的繫結條件約束並符合指定的引數清單和文化特性 (Culture) 來叫用指定的成員。Invokes the specified member, using the specified binding constraints and matching the specified argument list and culture.

(繼承來源 Type)
InvokeMember(String, BindingFlags, Binder, Object, Object[], ParameterModifier[], CultureInfo, String[])

叫用指定的成員。Invokes the specified member. 根據指定繫結器和引動過程屬性的條件約束,所要叫用的方法必須可存取,並提供與指定引數清單最特定的符合項目。The method that is to be invoked must be accessible and provide the most specific match with the specified argument list, under the constraints of the specified binder and invocation attributes.

InvokeMember(String, BindingFlags, Binder, Object, Object[], ParameterModifier[], CultureInfo, String[])

在衍生類別中覆寫時,使用指定的繫結條件約束並符合指定的引數清單、修飾詞和文化特性,來叫用指定的成員。When overridden in a derived class, invokes the specified member, using the specified binding constraints and matching the specified argument list, modifiers and culture.

(繼承來源 Type)
IsArrayImpl()

在衍生類別中覆寫時,實作 IsArray 屬性並判斷 Type 是否為陣列。When overridden in a derived class, implements the IsArray property and determines whether the Type is an array.

(繼承來源 Type)
IsAssignableFrom(Type)

取得值,指出是否可以將指定的 Type 指派給這個物件。Gets a value that indicates whether a specified Type can be assigned to this object.

IsAssignableFrom(Type) (繼承來源 TypeInfo)
IsAssignableFrom(TypeInfo)

取得值,指出是否可以將指定的 TypeInfo 物件指派給這個物件。Gets a value that indicates whether a specified TypeInfo object can be assigned to this object.

IsAssignableFrom(TypeInfo)

傳回值,這個值表示指定的類型是否可以指派到目前的類型。Returns a value that indicates whether the specified type can be assigned to the current type.

(繼承來源 TypeInfo)
IsAssignableTo(Type)

判斷現有類型是否可以指派至指定 targetType的變數。Determines whether the current type can be assigned to a variable of the specified targetType.

(繼承來源 Type)
IsByRefImpl()

在衍生類別中覆寫時,實作 IsByRef 屬性並判斷 Type 是否以傳址方式傳遞。When overridden in a derived class, implements the IsByRef property and determines whether the Type is passed by reference.

(繼承來源 Type)
IsCOMObjectImpl()

在衍生類別中覆寫時,實作 IsCOMObject 屬性並判斷 Type 是否為 COM 物件。When overridden in a derived class, implements the IsCOMObject property and determines whether the Type is a COM object.

(繼承來源 Type)
IsContextfulImpl()

實作 IsContextful 屬性並判斷在內容中是否可以裝載 TypeImplements the IsContextful property and determines whether the Type can be hosted in a context.

(繼承來源 Type)
IsCreated()

傳回表示是否已建立目前動態類型的值。Returns a value that indicates whether the current dynamic type has been created.

IsDefined(Type, Boolean)

決定是否要將自訂屬性套用至目前的類型。Determines whether a custom attribute is applied to the current type.

IsDefined(Type, Boolean)

在衍生類別中覆寫時,表示是否已有一個或多個具有指定型別或其衍生型別的屬性套用至這個成員。When overridden in a derived class, indicates whether one or more attributes of the specified type or of its derived types is applied to this member.

(繼承來源 MemberInfo)
IsEnumDefined(Object)

傳回值,這個值表示指定的值是否存在於目前的列舉類型中。Returns a value that indicates whether the specified value exists in the current enumeration type.

(繼承來源 Type)
IsEnumDefined(Object) (繼承來源 TypeInfo)
IsEquivalentTo(Type)

判斷兩個 COM 類型是否具有相同的識別以及是否適合類型等價。Determines whether two COM types have the same identity and are eligible for type equivalence.

(繼承來源 Type)
IsEquivalentTo(Type) (繼承來源 TypeInfo)
IsInstanceOfType(Object)

判斷指定的物件是否為目前 Type 的執行個體。Determines whether the specified object is an instance of the current Type.

(繼承來源 Type)
IsInstanceOfType(Object) (繼承來源 TypeInfo)
IsMarshalByRefImpl()

實作 IsMarshalByRef 屬性,判斷 Type 是否以傳址方式封送處理。Implements the IsMarshalByRef property and determines whether the Type is marshaled by reference.

(繼承來源 Type)
IsPointerImpl()

在衍生類別中覆寫時,實作 IsPointer 屬性並判斷 Type 是否為指標。When overridden in a derived class, implements the IsPointer property and determines whether the Type is a pointer.

(繼承來源 Type)
IsPrimitiveImpl()

在衍生類別中覆寫時,實作 IsPrimitive 屬性並判斷 Type 是否為其中一個基本類型。When overridden in a derived class, implements the IsPrimitive property and determines whether the Type is one of the primitive types.

(繼承來源 Type)
IsSubclassOf(Type)

判斷此類型是否衍生自指定的類型。Determines whether this type is derived from a specified type.

IsSubclassOf(Type) (繼承來源 TypeInfo)
IsValueTypeImpl()

實作 IsValueType 屬性並判斷 Type 是否為實值類型;也就是說,不是類別或介面。Implements the IsValueType property and determines whether the Type is a value type; that is, not a class or an interface.

(繼承來源 Type)
MakeArrayType()

傳回 Type 物件,代表由目前類型組成的一維陣列,其下限為零。Returns a Type object that represents a one-dimensional array of the current type, with a lower bound of zero.

MakeArrayType()

傳回 Type 物件,代表由目前類型組成的一維陣列,其下限為零。Returns a Type object representing a one-dimensional array of the current type, with a lower bound of zero.

(繼承來源 Type)
MakeArrayType() (繼承來源 TypeInfo)
MakeArrayType(Int32)

傳回 Type 物件,代表由目前類型組成且為指定維度個數的陣列。Returns a Type object that represents an array of the current type, with the specified number of dimensions.

MakeArrayType(Int32)

傳回 Type 物件,代表由目前類型組成且為指定維度個數的陣列。Returns a Type object representing an array of the current type, with the specified number of dimensions.

(繼承來源 Type)
MakeArrayType(Int32) (繼承來源 TypeInfo)
MakeByRefType()

傳回 Type 物件,當做 ref 參數 (在 Visual Basic 中為ByRef ) 傳遞時,代表目前的類型。Returns a Type object that represents the current type when passed as a ref parameter (ByRef in Visual Basic).

MakeByRefType()

傳回 Type 物件,當做 ref (Visual Basic 中的 ByRef) 參數傳遞時,代表目前的類型。Returns a Type object that represents the current type when passed as a ref parameter (ByRef parameter in Visual Basic).

(繼承來源 Type)
MakeByRefType() (繼承來源 TypeInfo)
MakeGenericType(Type[])

用類型陣列的項目取代目前泛型類型定義的類型參數,並傳回產生的建構類型。Substitutes the elements of an array of types for the type parameters of the current generic type definition, and returns the resulting constructed type.

MakeGenericType(Type[])

用類型陣列的項目取代目前泛型類型定義的型別參數,並傳回代表所得結果建構類型的 Type 物件。Substitutes the elements of an array of types for the type parameters of the current generic type definition and returns a Type object representing the resulting constructed type.

(繼承來源 Type)
MakeGenericType(Type[]) (繼承來源 TypeInfo)
MakePointerType()

傳回 Type 物件,代表指向目前類型之 Unmanaged 指標的類型。Returns a Type object that represents the type of an unmanaged pointer to the current type.

MakePointerType()

傳回 Type 物件,代表指向目前類型的指標。Returns a Type object that represents a pointer to the current type.

(繼承來源 Type)
MakePointerType() (繼承來源 TypeInfo)
MemberwiseClone()

建立目前 Object 的淺層複製。Creates a shallow copy of the current Object.

(繼承來源 Object)
SetCustomAttribute(ConstructorInfo, Byte[])

使用指定的自訂屬性 Blob 來設定自訂屬性。Sets a custom attribute using a specified custom attribute blob.

SetCustomAttribute(CustomAttributeBuilder)

使用自訂屬性產生器來設定自訂屬性。Set a custom attribute using a custom attribute builder.

SetParent(Type)

設定目前建構中之類型的基底類型。Sets the base type of the type currently under construction.

ToString()

傳回不含命名空間的類型名稱。Returns the name of the type excluding the namespace.

ToString()

傳回表示目前 String 的名稱的 TypeReturns a String representing the name of the current Type.

(繼承來源 Type)

明確介面實作

_MemberInfo.GetIDsOfNames(Guid, IntPtr, UInt32, UInt32, IntPtr)

將一組名稱對應至一組對應的分派識別項 (Dispatch Identifier)。Maps a set of names to a corresponding set of dispatch identifiers.

(繼承來源 MemberInfo)
_MemberInfo.GetType()

取得 Type 物件,表示 MemberInfo 類別。Gets a Type object representing the MemberInfo class.

(繼承來源 MemberInfo)
_MemberInfo.GetTypeInfo(UInt32, UInt32, IntPtr)

擷取物件的類型資訊,可以用來取得介面的類型資訊。Retrieves the type information for an object, which can then be used to get the type information for an interface.

(繼承來源 MemberInfo)
_MemberInfo.GetTypeInfoCount(UInt32)

擷取物件提供的類型資訊介面數目 (0 或 1)。Retrieves the number of type information interfaces that an object provides (either 0 or 1).

(繼承來源 MemberInfo)
_MemberInfo.Invoke(UInt32, Guid, UInt32, Int16, IntPtr, IntPtr, IntPtr, IntPtr)

提供物件所公開的屬性和方法的存取權。Provides access to properties and methods exposed by an object.

(繼承來源 MemberInfo)
_Type.GetIDsOfNames(Guid, IntPtr, UInt32, UInt32, IntPtr)

將一組名稱對應至一組對應的分派識別項 (Dispatch Identifier)。Maps a set of names to a corresponding set of dispatch identifiers.

(繼承來源 Type)
_Type.GetTypeInfo(UInt32, UInt32, IntPtr)

擷取物件的類型資訊,可以用來取得介面的類型資訊。Retrieves the type information for an object, which can then be used to get the type information for an interface.

(繼承來源 Type)
_Type.GetTypeInfoCount(UInt32)

擷取物件提供的類型資訊介面數目 (0 或 1)。Retrieves the number of type information interfaces that an object provides (either 0 or 1).

(繼承來源 Type)
_Type.Invoke(UInt32, Guid, UInt32, Int16, IntPtr, IntPtr, IntPtr, IntPtr)

提供物件所公開的屬性和方法的存取權。Provides access to properties and methods exposed by an object.

(繼承來源 Type)
_TypeBuilder.GetIDsOfNames(Guid, IntPtr, UInt32, UInt32, IntPtr)

將一組名稱對應至一組對應的分派識別項 (Dispatch Identifier)。Maps a set of names to a corresponding set of dispatch identifiers.

_TypeBuilder.GetTypeInfo(UInt32, UInt32, IntPtr)

擷取物件的類型資訊,可以用來取得介面的類型資訊。Retrieves the type information for an object, which can then be used to get the type information for an interface.

_TypeBuilder.GetTypeInfoCount(UInt32)

擷取物件提供的類型資訊介面數目 (0 或 1)。Retrieves the number of type information interfaces that an object provides (either 0 or 1).

_TypeBuilder.Invoke(UInt32, Guid, UInt32, Int16, IntPtr, IntPtr, IntPtr, IntPtr)

提供物件所公開的屬性和方法的存取權。Provides access to properties and methods exposed by an object.

ICustomAttributeProvider.GetCustomAttributes(Boolean)

傳回這個成員中定義的所有自訂屬性的陣列 (但具名屬性除外),如果沒有自訂屬性,則傳回空陣列。Returns an array of all of the custom attributes defined on this member, excluding named attributes, or an empty array if there are no custom attributes.

(繼承來源 MemberInfo)
ICustomAttributeProvider.GetCustomAttributes(Type, Boolean)

傳回這個成員中定義的自訂屬性陣列 (依類型識別),如果沒有該類型的自訂屬性,則傳回空陣列。Returns an array of custom attributes defined on this member, identified by type, or an empty array if there are no custom attributes of that type.

(繼承來源 MemberInfo)
ICustomAttributeProvider.IsDefined(Type, Boolean)

指出此成員上是否有定義一個或多個 attributeType 執行個體。Indicates whether one or more instance of attributeType is defined on this member.

(繼承來源 MemberInfo)
IReflectableType.GetTypeInfo()

TypeInfo 物件形式傳回目前類型的表示。Returns a representation of the current type as a TypeInfo object.

(繼承來源 TypeInfo)

擴充方法

GetCustomAttribute(MemberInfo, Type)

擷取指定型別的自訂屬性,此屬性套用至指定成員。Retrieves a custom attribute of a specified type that is applied to a specified member.

GetCustomAttribute(MemberInfo, Type, Boolean)

擷取只訂型別的自訂屬性,此屬性套用至指定成員,並且可選擇性檢查該成員的祖系。Retrieves a custom attribute of a specified type that is applied to a specified member, and optionally inspects the ancestors of that member.

GetCustomAttribute<T>(MemberInfo)

擷取指定型別的自訂屬性,此屬性套用至指定成員。Retrieves a custom attribute of a specified type that is applied to a specified member.

GetCustomAttribute<T>(MemberInfo, Boolean)

擷取只訂型別的自訂屬性,此屬性套用至指定成員,並且可選擇性檢查該成員的祖系。Retrieves a custom attribute of a specified type that is applied to a specified member, and optionally inspects the ancestors of that member.

GetCustomAttributes(MemberInfo)

擷取套用至指定成員的自訂屬性集合。Retrieves a collection of custom attributes that are applied to a specified member.

GetCustomAttributes(MemberInfo, Boolean)

擷取自訂屬性集合,此集合套用至指定成員,並且可選擇性檢查該成員的祖系。Retrieves a collection of custom attributes that are applied to a specified member, and optionally inspects the ancestors of that member.

GetCustomAttributes(MemberInfo, Type)

擷取指定型別的自訂屬性集合,此集合套用至指定成員。Retrieves a collection of custom attributes of a specified type that are applied to a specified member.

GetCustomAttributes(MemberInfo, Type, Boolean)

擷取指定型別的自訂屬性集合,此集合套用至指定成員,並且可選擇性檢查該成員的祖系。Retrieves a collection of custom attributes of a specified type that are applied to a specified member, and optionally inspects the ancestors of that member.

GetCustomAttributes<T>(MemberInfo)

擷取指定型別的自訂屬性集合,此集合套用至指定成員。Retrieves a collection of custom attributes of a specified type that are applied to a specified member.

GetCustomAttributes<T>(MemberInfo, Boolean)

擷取指定型別的自訂屬性集合,此集合套用至指定成員,並且可選擇性檢查該成員的祖系。Retrieves a collection of custom attributes of a specified type that are applied to a specified member, and optionally inspects the ancestors of that member.

IsDefined(MemberInfo, Type)

指出是否將所指定型別的自訂屬性套用至指定的成員。Indicates whether custom attributes of a specified type are applied to a specified member.

IsDefined(MemberInfo, Type, Boolean)

指出指定之型別的自訂屬性是否會套用至指定的成員,以及選擇性地套用到其上階。Indicates whether custom attributes of a specified type are applied to a specified member, and, optionally, applied to its ancestors.

GetTypeInfo(Type)

傳回指定之型別的 TypeInfo 表示。Returns the TypeInfo representation of the specified type.

GetMetadataToken(MemberInfo)

取得指定成員的中繼資料語彙基元 (如果有)。Gets a metadata token for the given member, if available.

HasMetadataToken(MemberInfo)

傳回值,指出所指定成員是否有可用的中繼資料語彙基元。Returns a value that indicates whether a metadata token is available for the specified member.

GetRuntimeEvent(Type, String)

擷取表示指定之事件的物件。Retrieves an object that represents the specified event.

GetRuntimeEvents(Type)

擷取集合,表示指定的型別所定義的所有事件。Retrieves a collection that represents all the events defined on a specified type.

GetRuntimeField(Type, String)

擷取表示指定之欄位的物件。Retrieves an object that represents a specified field.

GetRuntimeFields(Type)

擷取集合,表示指定的型別所定義的所有欄位。Retrieves a collection that represents all the fields defined on a specified type.

GetRuntimeInterfaceMap(TypeInfo, Type)

傳回指定型別和指定介面的介面對應。Returns an interface mapping for the specified type and the specified interface.

GetRuntimeMethod(Type, String, Type[])

擷取表示指定之方法的物件。Retrieves an object that represents a specified method.

GetRuntimeMethods(Type)

擷取集合,表示指定的型別所定義的所有方法。Retrieves a collection that represents all methods defined on a specified type.

GetRuntimeProperties(Type)

擷取集合,表示指定的型別所定義的所有屬性。Retrieves a collection that represents all the properties defined on a specified type.

GetRuntimeProperty(Type, String)

擷取表示指定之屬性的物件。Retrieves an object that represents a specified property.

GetConstructor(Type, Type[])
GetConstructors(Type)
GetConstructors(Type, BindingFlags)
GetDefaultMembers(Type)
GetEvent(Type, String)
GetEvent(Type, String, BindingFlags)
GetEvents(Type)
GetEvents(Type, BindingFlags)
GetField(Type, String)
GetField(Type, String, BindingFlags)
GetFields(Type)
GetFields(Type, BindingFlags)
GetGenericArguments(Type)
GetInterfaces(Type)
GetMember(Type, String)
GetMember(Type, String, BindingFlags)
GetMembers(Type)
GetMembers(Type, BindingFlags)
GetMethod(Type, String)
GetMethod(Type, String, BindingFlags)
GetMethod(Type, String, Type[])
GetMethods(Type)
GetMethods(Type, BindingFlags)
GetNestedType(Type, String, BindingFlags)
GetNestedTypes(Type, BindingFlags)
GetProperties(Type)
GetProperties(Type, BindingFlags)
GetProperty(Type, String)
GetProperty(Type, String, BindingFlags)
GetProperty(Type, String, Type)
GetProperty(Type, String, Type, Type[])
IsAssignableFrom(Type, Type)
IsInstanceOfType(Type, Object)

適用於

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