ConstructorBuilder Class
Definition
Important
Some information relates to prerelease product that may be substantially modified before it’s released. Microsoft makes no warranties, express or implied, with respect to the information provided here.
Defines and represents a constructor of a dynamic class.
public ref class ConstructorBuilder sealed : System::Reflection::ConstructorInfo
public ref class ConstructorBuilder abstract : System::Reflection::ConstructorInfo
public ref class ConstructorBuilder sealed : System::Reflection::ConstructorInfo, System::Runtime::InteropServices::_ConstructorBuilder
public sealed class ConstructorBuilder : System.Reflection.ConstructorInfo
public abstract class ConstructorBuilder : System.Reflection.ConstructorInfo
[System.Runtime.InteropServices.ClassInterface(System.Runtime.InteropServices.ClassInterfaceType.None)]
public sealed class ConstructorBuilder : System.Reflection.ConstructorInfo, System.Runtime.InteropServices._ConstructorBuilder
[System.Runtime.InteropServices.ClassInterface(System.Runtime.InteropServices.ClassInterfaceType.None)]
[System.Runtime.InteropServices.ComVisible(true)]
public sealed class ConstructorBuilder : System.Reflection.ConstructorInfo, System.Runtime.InteropServices._ConstructorBuilder
type ConstructorBuilder = class
inherit ConstructorInfo
[<System.Runtime.InteropServices.ClassInterface(System.Runtime.InteropServices.ClassInterfaceType.None)>]
type ConstructorBuilder = class
inherit ConstructorInfo
interface _ConstructorBuilder
[<System.Runtime.InteropServices.ClassInterface(System.Runtime.InteropServices.ClassInterfaceType.None)>]
[<System.Runtime.InteropServices.ComVisible(true)>]
type ConstructorBuilder = class
inherit ConstructorInfo
interface _ConstructorBuilder
Public NotInheritable Class ConstructorBuilder
Inherits ConstructorInfo
Public MustInherit Class ConstructorBuilder
Inherits ConstructorInfo
Public NotInheritable Class ConstructorBuilder
Inherits ConstructorInfo
Implements _ConstructorBuilder
- Inheritance
- Attributes
- Implements
Examples
The following code sample illustrates the contextual usage of a ConstructorBuilder
.
using namespace System;
using namespace System::Threading;
using namespace System::Reflection;
using namespace System::Reflection::Emit;
Type^ DynamicPointTypeGen()
{
Type^ pointType = nullptr;
array<Type^>^temp0 = {int::typeid,int::typeid,int::typeid};
array<Type^>^ctorParams = temp0;
AppDomain^ myDomain = Thread::GetDomain();
AssemblyName^ myAsmName = gcnew AssemblyName;
myAsmName->Name = "MyDynamicAssembly";
AssemblyBuilder^ myAsmBuilder = myDomain->DefineDynamicAssembly( myAsmName, AssemblyBuilderAccess::RunAndSave );
ModuleBuilder^ pointModule = myAsmBuilder->DefineDynamicModule( "PointModule", "Point.dll" );
TypeBuilder^ pointTypeBld = pointModule->DefineType( "Point", TypeAttributes::Public );
FieldBuilder^ xField = pointTypeBld->DefineField( "x", int::typeid, FieldAttributes::Public );
FieldBuilder^ yField = pointTypeBld->DefineField( "y", int::typeid, FieldAttributes::Public );
FieldBuilder^ zField = pointTypeBld->DefineField( "z", int::typeid, FieldAttributes::Public );
Type^ objType = Type::GetType( "System.Object" );
ConstructorInfo^ objCtor = objType->GetConstructor( gcnew array<Type^>(0) );
ConstructorBuilder^ pointCtor = pointTypeBld->DefineConstructor( MethodAttributes::Public, CallingConventions::Standard, ctorParams );
ILGenerator^ ctorIL = pointCtor->GetILGenerator();
// NOTE: ldarg.0 holds the "this" reference - ldarg.1, ldarg.2, and ldarg.3
// hold the actual passed parameters. ldarg.0 is used by instance methods
// to hold a reference to the current calling bject instance. Static methods
// do not use arg.0, since they are not instantiated and hence no reference
// is needed to distinguish them.
ctorIL->Emit( OpCodes::Ldarg_0 );
// Here, we wish to create an instance of System::Object by invoking its
// constructor, as specified above.
ctorIL->Emit( OpCodes::Call, objCtor );
// Now, we'll load the current instance in arg 0, along
// with the value of parameter "x" stored in arg 1, into stfld.
ctorIL->Emit( OpCodes::Ldarg_0 );
ctorIL->Emit( OpCodes::Ldarg_1 );
ctorIL->Emit( OpCodes::Stfld, xField );
// Now, we store arg 2 "y" in the current instance with stfld.
ctorIL->Emit( OpCodes::Ldarg_0 );
ctorIL->Emit( OpCodes::Ldarg_2 );
ctorIL->Emit( OpCodes::Stfld, yField );
// Last of all, arg 3 "z" gets stored in the current instance.
ctorIL->Emit( OpCodes::Ldarg_0 );
ctorIL->Emit( OpCodes::Ldarg_3 );
ctorIL->Emit( OpCodes::Stfld, zField );
// Our work complete, we return.
ctorIL->Emit( OpCodes::Ret );
// Now, let's create three very simple methods so we can see our fields.
array<String^>^temp1 = {"GetX","GetY","GetZ"};
array<String^>^mthdNames = temp1;
System::Collections::IEnumerator^ myEnum = mthdNames->GetEnumerator();
while ( myEnum->MoveNext() )
{
String^ mthdName = safe_cast<String^>(myEnum->Current);
MethodBuilder^ getFieldMthd = pointTypeBld->DefineMethod( mthdName, MethodAttributes::Public, int::typeid, nullptr );
ILGenerator^ mthdIL = getFieldMthd->GetILGenerator();
mthdIL->Emit( OpCodes::Ldarg_0 );
if ( mthdName->Equals( "GetX" ) )
mthdIL->Emit( OpCodes::Ldfld, xField );
else
if ( mthdName->Equals( "GetY" ) )
mthdIL->Emit( OpCodes::Ldfld, yField );
else
if ( mthdName->Equals( "GetZ" ) )
mthdIL->Emit( OpCodes::Ldfld, zField );
mthdIL->Emit( OpCodes::Ret );
}
pointType = pointTypeBld->CreateType();
// Let's save it, just for posterity.
myAsmBuilder->Save( "Point.dll" );
return pointType;
}
int main()
{
Type^ myDynamicType = nullptr;
Object^ aPoint = nullptr;
array<Type^>^temp2 = {int::typeid,int::typeid,int::typeid};
array<Type^>^aPtypes = temp2;
array<Object^>^temp3 = {4,5,6};
array<Object^>^aPargs = temp3;
// Call the method to build our dynamic class.
myDynamicType = DynamicPointTypeGen();
Console::WriteLine( "Some information about my new Type '{0}':", myDynamicType->FullName );
Console::WriteLine( "Assembly: '{0}'", myDynamicType->Assembly );
Console::WriteLine( "Attributes: '{0}'", myDynamicType->Attributes );
Console::WriteLine( "Module: '{0}'", myDynamicType->Module );
Console::WriteLine( "Members: " );
System::Collections::IEnumerator^ myEnum = myDynamicType->GetMembers()->GetEnumerator();
while ( myEnum->MoveNext() )
{
MemberInfo^ member = safe_cast<MemberInfo^>(myEnum->Current);
Console::WriteLine( "-- {0} {1};", member->MemberType, member->Name );
}
Console::WriteLine( "---" );
// Let's take a look at the constructor we created.
ConstructorInfo^ myDTctor = myDynamicType->GetConstructor( aPtypes );
Console::WriteLine( "Constructor: {0};", myDTctor );
Console::WriteLine( "---" );
// Now, we get to use our dynamically-created class by invoking the constructor.
aPoint = myDTctor->Invoke( aPargs );
Console::WriteLine( "aPoint is type {0}.", aPoint->GetType() );
// Finally, let's reflect on the instance of our new type - aPoint - and
// make sure everything proceeded according to plan.
Console::WriteLine( "aPoint.x = {0}", myDynamicType->InvokeMember( "GetX", BindingFlags::InvokeMethod, nullptr, aPoint, gcnew array<Object^>(0) ) );
Console::WriteLine( "aPoint.y = {0}", myDynamicType->InvokeMember( "GetY", BindingFlags::InvokeMethod, nullptr, aPoint, gcnew array<Object^>(0) ) );
Console::WriteLine( "aPoint.z = {0}", myDynamicType->InvokeMember( "GetZ", BindingFlags::InvokeMethod, nullptr, aPoint, gcnew array<Object^>(0) ) );
// +++ OUTPUT +++
// Some information about my new Type 'Point':
// Assembly: 'MyDynamicAssembly, Version=0.0.0.0'
// Attributes: 'AutoLayout, AnsiClass, NotPublic, Public'
// Module: 'PointModule'
// Members:
// -- Field x;
// -- Field y;
// -- Field z;
// -- Method GetHashCode;
// -- Method Equals;
// -- Method ToString;
// -- Method GetType;
// -- Constructor .ctor;
// ---
// Constructor: Void .ctor(Int32, Int32, Int32);
// ---
// aPoint is type Point.
// aPoint.x = 4
// aPoint.y = 5
// aPoint.z = 6
}
using System;
using System.Threading;
using System.Reflection;
using System.Reflection.Emit;
class TestCtorBuilder {
public static Type DynamicPointTypeGen() {
Type pointType = null;
Type[] ctorParams = new Type[] {typeof(int),
typeof(int),
typeof(int)};
AppDomain myDomain = Thread.GetDomain();
AssemblyName myAsmName = new AssemblyName();
myAsmName.Name = "MyDynamicAssembly";
AssemblyBuilder myAsmBuilder = myDomain.DefineDynamicAssembly(
myAsmName,
AssemblyBuilderAccess.RunAndSave);
ModuleBuilder pointModule = myAsmBuilder.DefineDynamicModule("PointModule",
"Point.dll");
TypeBuilder pointTypeBld = pointModule.DefineType("Point",
TypeAttributes.Public);
FieldBuilder xField = pointTypeBld.DefineField("x", typeof(int),
FieldAttributes.Public);
FieldBuilder yField = pointTypeBld.DefineField("y", typeof(int),
FieldAttributes.Public);
FieldBuilder zField = pointTypeBld.DefineField("z", typeof(int),
FieldAttributes.Public);
Type objType = Type.GetType("System.Object");
ConstructorInfo objCtor = objType.GetConstructor(new Type[0]);
ConstructorBuilder pointCtor = pointTypeBld.DefineConstructor(
MethodAttributes.Public,
CallingConventions.Standard,
ctorParams);
ILGenerator ctorIL = pointCtor.GetILGenerator();
// NOTE: ldarg.0 holds the "this" reference - ldarg.1, ldarg.2, and ldarg.3
// hold the actual passed parameters. ldarg.0 is used by instance methods
// to hold a reference to the current calling object instance. Static methods
// do not use arg.0, since they are not instantiated and hence no reference
// is needed to distinguish them.
ctorIL.Emit(OpCodes.Ldarg_0);
// Here, we wish to create an instance of System.Object by invoking its
// constructor, as specified above.
ctorIL.Emit(OpCodes.Call, objCtor);
// Now, we'll load the current instance ref in arg 0, along
// with the value of parameter "x" stored in arg 1, into stfld.
ctorIL.Emit(OpCodes.Ldarg_0);
ctorIL.Emit(OpCodes.Ldarg_1);
ctorIL.Emit(OpCodes.Stfld, xField);
// Now, we store arg 2 "y" in the current instance with stfld.
ctorIL.Emit(OpCodes.Ldarg_0);
ctorIL.Emit(OpCodes.Ldarg_2);
ctorIL.Emit(OpCodes.Stfld, yField);
// Last of all, arg 3 "z" gets stored in the current instance.
ctorIL.Emit(OpCodes.Ldarg_0);
ctorIL.Emit(OpCodes.Ldarg_3);
ctorIL.Emit(OpCodes.Stfld, zField);
// Our work complete, we return.
ctorIL.Emit(OpCodes.Ret);
// Now, let's create three very simple methods so we can see our fields.
string[] mthdNames = new string[] {"GetX", "GetY", "GetZ"};
foreach (string mthdName in mthdNames) {
MethodBuilder getFieldMthd = pointTypeBld.DefineMethod(
mthdName,
MethodAttributes.Public,
typeof(int),
null);
ILGenerator mthdIL = getFieldMthd.GetILGenerator();
mthdIL.Emit(OpCodes.Ldarg_0);
switch (mthdName) {
case "GetX": mthdIL.Emit(OpCodes.Ldfld, xField);
break;
case "GetY": mthdIL.Emit(OpCodes.Ldfld, yField);
break;
case "GetZ": mthdIL.Emit(OpCodes.Ldfld, zField);
break;
}
mthdIL.Emit(OpCodes.Ret);
}
// Finally, we create the type.
pointType = pointTypeBld.CreateType();
// Let's save it, just for posterity.
myAsmBuilder.Save("Point.dll");
return pointType;
}
public static void Main() {
Type myDynamicType = null;
object aPoint = null;
Type[] aPtypes = new Type[] {typeof(int), typeof(int), typeof(int)};
object[] aPargs = new object[] {4, 5, 6};
// Call the method to build our dynamic class.
myDynamicType = DynamicPointTypeGen();
Console.WriteLine("Some information about my new Type '{0}':",
myDynamicType.FullName);
Console.WriteLine("Assembly: '{0}'", myDynamicType.Assembly);
Console.WriteLine("Attributes: '{0}'", myDynamicType.Attributes);
Console.WriteLine("Module: '{0}'", myDynamicType.Module);
Console.WriteLine("Members: ");
foreach (MemberInfo member in myDynamicType.GetMembers()) {
Console.WriteLine("-- {0} {1};", member.MemberType, member.Name);
}
Console.WriteLine("---");
// Let's take a look at the constructor we created.
ConstructorInfo myDTctor = myDynamicType.GetConstructor(aPtypes);
Console.WriteLine("Constructor: {0};", myDTctor.ToString());
Console.WriteLine("---");
// Now, we get to use our dynamically-created class by invoking the constructor.
aPoint = myDTctor.Invoke(aPargs);
Console.WriteLine("aPoint is type {0}.", aPoint.GetType());
// Finally, let's reflect on the instance of our new type - aPoint - and
// make sure everything proceeded according to plan.
Console.WriteLine("aPoint.x = {0}",
myDynamicType.InvokeMember("GetX",
BindingFlags.InvokeMethod,
null,
aPoint,
new object[0]));
Console.WriteLine("aPoint.y = {0}",
myDynamicType.InvokeMember("GetY",
BindingFlags.InvokeMethod,
null,
aPoint,
new object[0]));
Console.WriteLine("aPoint.z = {0}",
myDynamicType.InvokeMember("GetZ",
BindingFlags.InvokeMethod,
null,
aPoint,
new object[0]));
// +++ OUTPUT +++
// Some information about my new Type 'Point':
// Assembly: 'MyDynamicAssembly, Version=0.0.0.0'
// Attributes: 'AutoLayout, AnsiClass, NotPublic, Public'
// Module: 'PointModule'
// Members:
// -- Field x;
// -- Field y;
// -- Field z;
// -- Method GetHashCode;
// -- Method Equals;
// -- Method ToString;
// -- Method GetType;
// -- Constructor .ctor;
// ---
// Constructor: Void .ctor(Int32, Int32, Int32);
// ---
// aPoint is type Point.
// aPoint.x = 4
// aPoint.y = 5
// aPoint.z = 6
}
}
Imports System.Threading
Imports System.Reflection
Imports System.Reflection.Emit
_
Class TestCtorBuilder
Public Shared Function DynamicPointTypeGen() As Type
Dim pointType 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 = "MyDynamicAssembly"
Dim myAsmBuilder As AssemblyBuilder = myDomain.DefineDynamicAssembly(myAsmName, AssemblyBuilderAccess.RunAndSave)
Dim pointModule As ModuleBuilder = myAsmBuilder.DefineDynamicModule("PointModule", "Point.dll")
Dim pointTypeBld As TypeBuilder = pointModule.DefineType("Point", TypeAttributes.Public)
Dim xField As FieldBuilder = pointTypeBld.DefineField("x", GetType(Integer), FieldAttributes.Public)
Dim yField As FieldBuilder = pointTypeBld.DefineField("y", GetType(Integer), FieldAttributes.Public)
Dim zField As FieldBuilder = pointTypeBld.DefineField("z", GetType(Integer), FieldAttributes.Public)
Dim objType As Type = Type.GetType("System.Object")
Dim objCtor As ConstructorInfo = objType.GetConstructor(New Type() {})
Dim pointCtor As ConstructorBuilder = pointTypeBld.DefineConstructor(MethodAttributes.Public, CallingConventions.Standard, ctorParams)
Dim ctorIL As ILGenerator = pointCtor.GetILGenerator()
' NOTE: ldarg.0 holds the "this" reference - ldarg.1, ldarg.2, and ldarg.3
' hold the actual passed parameters. ldarg.0 is used by instance methods
' to hold a reference to the current calling object instance. Static methods
' do not use arg.0, since they are not instantiated and hence no reference
' is needed to distinguish them.
ctorIL.Emit(OpCodes.Ldarg_0)
' Here, we wish to create an instance of System.Object by invoking its
' constructor, as specified above.
ctorIL.Emit(OpCodes.Call, objCtor)
' Now, we'll load the current instance ref in arg 0, along
' with the value of parameter "x" stored in arg 1, into stfld.
ctorIL.Emit(OpCodes.Ldarg_0)
ctorIL.Emit(OpCodes.Ldarg_1)
ctorIL.Emit(OpCodes.Stfld, xField)
' Now, we store arg 2 "y" in the current instance with stfld.
ctorIL.Emit(OpCodes.Ldarg_0)
ctorIL.Emit(OpCodes.Ldarg_2)
ctorIL.Emit(OpCodes.Stfld, yField)
' Last of all, arg 3 "z" gets stored in the current instance.
ctorIL.Emit(OpCodes.Ldarg_0)
ctorIL.Emit(OpCodes.Ldarg_3)
ctorIL.Emit(OpCodes.Stfld, zField)
' Our work complete, we return.
ctorIL.Emit(OpCodes.Ret)
' Now, let's create three very simple methods so we can see our fields.
Dim mthdNames() As String = {"GetX", "GetY", "GetZ"}
Dim mthdName As String
For Each mthdName In mthdNames
Dim getFieldMthd As MethodBuilder = pointTypeBld.DefineMethod(mthdName, MethodAttributes.Public, GetType(Integer), Nothing)
Dim mthdIL As ILGenerator = getFieldMthd.GetILGenerator()
mthdIL.Emit(OpCodes.Ldarg_0)
Select Case mthdName
Case "GetX"
mthdIL.Emit(OpCodes.Ldfld, xField)
Case "GetY"
mthdIL.Emit(OpCodes.Ldfld, yField)
Case "GetZ"
mthdIL.Emit(OpCodes.Ldfld, zField)
End Select
mthdIL.Emit(OpCodes.Ret)
Next mthdName
' Finally, we create the type.
pointType = pointTypeBld.CreateType()
' Let's save it, just for posterity.
myAsmBuilder.Save("Point.dll")
Return pointType
End Function 'DynamicPointTypeGen
Public Shared Sub Main()
Dim myDynamicType As Type = Nothing
Dim aPoint As Object = Nothing
Dim aPtypes() As Type = {GetType(Integer), GetType(Integer), GetType(Integer)}
Dim aPargs() As Object = {4, 5, 6}
' Call the method to build our dynamic class.
myDynamicType = DynamicPointTypeGen()
Console.WriteLine("Some information about my new Type '{0}':", myDynamicType.FullName)
Console.WriteLine("Assembly: '{0}'", myDynamicType.Assembly)
Console.WriteLine("Attributes: '{0}'", myDynamicType.Attributes)
Console.WriteLine("Module: '{0}'", myDynamicType.Module)
Console.WriteLine("Members: ")
Dim member As MemberInfo
For Each member In myDynamicType.GetMembers()
Console.WriteLine("-- {0} {1};", member.MemberType, member.Name)
Next member
Console.WriteLine("---")
' Let's take a look at the constructor we created.
Dim myDTctor As ConstructorInfo = myDynamicType.GetConstructor(aPtypes)
Console.WriteLine("Constructor: {0};", myDTctor.ToString())
Console.WriteLine("---")
' Now, we get to use our dynamically-created class by invoking the constructor.
aPoint = myDTctor.Invoke(aPargs)
Console.WriteLine("aPoint is type {0}.", aPoint.GetType())
' Finally, let's reflect on the instance of our new type - aPoint - and
' make sure everything proceeded according to plan.
Console.WriteLine("aPoint.x = {0}", myDynamicType.InvokeMember("GetX", BindingFlags.InvokeMethod, Nothing, aPoint, New Object() {}))
Console.WriteLine("aPoint.y = {0}", myDynamicType.InvokeMember("GetY", BindingFlags.InvokeMethod, Nothing, aPoint, New Object() {}))
Console.WriteLine("aPoint.z = {0}", myDynamicType.InvokeMember("GetZ", BindingFlags.InvokeMethod, Nothing, aPoint, New Object() {}))
End Sub
End Class
' +++ OUTPUT +++
' Some information about my new Type 'Point':
' Assembly: 'MyDynamicAssembly, Version=0.0.0.0'
' Attributes: 'AutoLayout, AnsiClass, NotPublic, Public'
' Module: 'PointModule'
' Members:
' -- Field x;
' -- Field y;
' -- Field z;
' -- Method GetHashCode;
' -- Method Equals;
' -- Method ToString;
' -- Method GetType;
' -- Constructor .ctor;
' ---
' Constructor: Void .ctor(Int32, Int32, Int32);
' ---
' aPoint is type Point.
' aPoint.x = 4
' aPoint.y = 5
' aPoint.z = 6
Remarks
ConstructorBuilder is used to fully describe a constructor in Microsoft intermediate language (MSIL), including the name, attributes, signature, and constructor body. It is used in conjunction with the TypeBuilder class to create classes at run time. Call DefineConstructor to get an instance of ConstructorBuilder.
If you do not define a constructor for your dynamic type, a parameterless constructor is provided automatically, and it calls the parameterless constructor of the base class.
If you use ConstructorBuilder to define a constructor for your dynamic type, a parameterless constructor is not provided. You have the following options for providing a parameterless constructor in addition to the constructor you defined:
If you want a parameterless constructor that simply calls the parameterless constructor of the base class, you can use the TypeBuilder.DefineDefaultConstructor method to create one (and optionally restrict access to it). Do not provide an implementation for this parameterless constructor. If you do, an exception is thrown when you try to use the constructor. No exception is thrown when the TypeBuilder.CreateType method is called.
If you want a parameterless constructor that does something more than simply calling the parameterless constructor of the base class, or that calls another constructor of the base class, or that does something else entirely, you must use the TypeBuilder.DefineConstructor method to create a ConstructorBuilder, and provide your own implementation.
Constructors
ConstructorBuilder() |
Initializes a new instance of the ConstructorBuilder class. |
Properties
Attributes |
Gets the attributes for this constructor. |
CallingConvention |
Gets a CallingConventions value that depends on whether the declaring type is generic. |
CallingConvention |
Gets a value indicating the calling conventions for this method. (Inherited from MethodBase) |
ContainsGenericParameters |
Gets a value indicating whether the generic method contains unassigned generic type parameters. (Inherited from MethodBase) |
CustomAttributes |
Gets a collection that contains this member's custom attributes. (Inherited from MemberInfo) |
DeclaringType |
Gets a reference to the Type object for the type that declares this member. |
InitLocals |
Gets or sets whether the local variables in this constructor should be zero-initialized. |
InitLocalsCore |
When overridden in a derived class, gets or sets a value that indicates whether the local variables in this constructor should be zero-initialized. |
IsAbstract |
Gets a value indicating whether the method is abstract. (Inherited from MethodBase) |
IsAssembly |
Gets a value indicating whether the potential visibility of this method or constructor is described by Assembly; that is, the method or constructor is visible at most to other types in the same assembly, and is not visible to derived types outside the assembly. (Inherited from MethodBase) |
IsCollectible |
Gets a value that indicates whether this MemberInfo object is part of an assembly held in a collectible AssemblyLoadContext. (Inherited from MemberInfo) |
IsConstructedGenericMethod | (Inherited from MethodBase) |
IsConstructor |
Gets a value indicating whether the method is a constructor. (Inherited from MethodBase) |
IsFamily |
Gets a value indicating whether the visibility of this method or constructor is described by Family; that is, the method or constructor is visible only within its class and derived classes. (Inherited from MethodBase) |
IsFamilyAndAssembly |
Gets a value indicating whether the visibility of this method or constructor is described by FamANDAssem; that is, the method or constructor can be called by derived classes, but only if they are in the same assembly. (Inherited from MethodBase) |
IsFamilyOrAssembly |
Gets a value indicating whether the potential visibility of this method or constructor is described by FamORAssem; that is, the method or constructor can be called by derived classes wherever they are, and by classes in the same assembly. (Inherited from MethodBase) |
IsFinal |
Gets a value indicating whether this method is |
IsGenericMethod |
Gets a value indicating whether the method is generic. (Inherited from MethodBase) |
IsGenericMethodDefinition |
Gets a value indicating whether the method is a generic method definition. (Inherited from MethodBase) |
IsHideBySig |
Gets a value indicating whether only a member of the same kind with exactly the same signature is hidden in the derived class. (Inherited from MethodBase) |
IsPrivate |
Gets a value indicating whether this member is private. (Inherited from MethodBase) |
IsPublic |
Gets a value indicating whether this is a public method. (Inherited from MethodBase) |
IsSecurityCritical |
Gets a value that indicates whether the current method or constructor is security-critical or security-safe-critical at the current trust level, and therefore can perform critical operations. (Inherited from MethodBase) |
IsSecuritySafeCritical |
Gets a value that indicates whether the current method or constructor is security-safe-critical at the current trust level; that is, whether it can perform critical operations and can be accessed by transparent code. (Inherited from MethodBase) |
IsSecurityTransparent |
Gets a value that indicates whether the current method or constructor is transparent at the current trust level, and therefore cannot perform critical operations. (Inherited from MethodBase) |
IsSpecialName |
Gets a value indicating whether this method has a special name. (Inherited from MethodBase) |
IsStatic |
Gets a value indicating whether the method is |
IsVirtual |
Gets a value indicating whether the method is |
MemberType |
Gets a MemberTypes value indicating that this member is a constructor. (Inherited from ConstructorInfo) |
MetadataToken |
Gets a token that identifies the current dynamic module in metadata. |
MetadataToken |
Gets a value that identifies a metadata element. (Inherited from MemberInfo) |
MethodHandle |
Gets the internal handle for the method. Use this handle to access the underlying metadata handle. |
MethodHandle |
Gets a handle to the internal metadata representation of a method. (Inherited from MethodBase) |
MethodImplementationFlags |
Gets the MethodImplAttributes flags that specify the attributes of a method implementation. |
MethodImplementationFlags |
Gets the MethodImplAttributes flags that specify the attributes of a method implementation. (Inherited from MethodBase) |
Module |
Gets the dynamic module in which this constructor is defined. |
Module |
Gets the module in which the type that declares the member represented by the current MemberInfo is defined. (Inherited from MemberInfo) |
Name |
Retrieves the name of this constructor. |
ReflectedType |
Holds a reference to the Type object from which this object was obtained. |
ReflectedType |
Gets the class object that was used to obtain this instance of |
ReturnType |
Obsolete.
Gets |
Signature |
Retrieves the signature of the field in the form of a string. |
Methods
AddDeclarativeSecurity(SecurityAction, PermissionSet) |
Adds declarative security to this constructor. |
DefineParameter(Int32, ParameterAttributes, String) |
Defines a parameter of this constructor. |
DefineParameterCore(Int32, ParameterAttributes, String) |
When overridden in a derived class, defines a parameter of this constructor. |
Equals(Object) |
Returns a value that indicates whether this instance is equal to a specified object. (Inherited from ConstructorInfo) |
GetCustomAttributes(Boolean) |
Returns all the custom attributes defined for this constructor. |
GetCustomAttributes(Boolean) |
When overridden in a derived class, returns an array of all custom attributes applied to this member. (Inherited from MemberInfo) |
GetCustomAttributes(Type, Boolean) |
Returns the custom attributes identified by the given type. |
GetCustomAttributes(Type, Boolean) |
When overridden in a derived class, returns an array of custom attributes applied to this member and identified by Type. (Inherited from MemberInfo) |
GetCustomAttributesData() |
Returns a list of CustomAttributeData objects representing data about the attributes that have been applied to the target member. (Inherited from MemberInfo) |
GetGenericArguments() |
Returns an array of Type objects that represent the type arguments of a generic method or the type parameters of a generic method definition. (Inherited from MethodBase) |
GetHashCode() |
Returns the hash code for this instance. (Inherited from ConstructorInfo) |
GetILGenerator() |
Gets an ILGenerator for this constructor. |
GetILGenerator(Int32) |
Gets an ILGenerator object, with the specified MSIL stream size, that can be used to build a method body for this constructor. |
GetILGeneratorCore(Int32) |
When overridden in a derived class, gets an ILGenerator that can be used to emit a method body for this constructor. |
GetMethodBody() |
When overridden in a derived class, gets a MethodBody object that provides access to the MSIL stream, local variables, and exceptions for the current method. (Inherited from MethodBase) |
GetMethodImplementationFlags() |
Returns the method implementation flags for this constructor. |
GetMethodImplementationFlags() |
When overridden in a derived class, returns the MethodImplAttributes flags. (Inherited from MethodBase) |
GetModule() |
Returns a reference to the module that contains this constructor. |
GetParameters() |
Returns the parameters of this constructor. |
GetToken() |
Returns the MethodToken that represents the token for this constructor. |
GetType() |
Discovers the attributes of a class constructor and provides access to constructor metadata. (Inherited from ConstructorInfo) |
HasSameMetadataDefinitionAs(MemberInfo) | (Inherited from MemberInfo) |
Invoke(BindingFlags, Binder, Object[], CultureInfo) |
Dynamically invokes the constructor represented by this instance on the given object, passing along the specified parameters, and under the constraints of the given binder. |
Invoke(BindingFlags, Binder, Object[], CultureInfo) |
When implemented in a derived class, invokes the constructor reflected by this |
Invoke(Object, BindingFlags, Binder, Object[], CultureInfo) |
Dynamically invokes the constructor reflected by this instance with the specified arguments, under the constraints of the specified |
Invoke(Object, BindingFlags, Binder, Object[], CultureInfo) |
When overridden in a derived class, invokes the reflected method or constructor with the given parameters. (Inherited from MethodBase) |
Invoke(Object, Object[]) |
Invokes the method or constructor represented by the current instance, using the specified parameters. (Inherited from MethodBase) |
Invoke(Object[]) |
Invokes the constructor reflected by the instance that has the specified parameters, providing default values for the parameters not commonly used. (Inherited from ConstructorInfo) |
IsDefined(Type, Boolean) |
Checks if the specified custom attribute type is defined. |
IsDefined(Type, Boolean) |
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. (Inherited from MemberInfo) |
MemberwiseClone() |
Creates a shallow copy of the current Object. (Inherited from Object) |
SetCustomAttribute(ConstructorInfo, Byte[]) |
Set a custom attribute using a specified custom attribute blob. |
SetCustomAttribute(CustomAttributeBuilder) |
Set a custom attribute using a custom attribute builder. |
SetCustomAttributeCore(ConstructorInfo, ReadOnlySpan<Byte>) |
When overridden in a derived class, sets a custom attribute on this constructor. |
SetImplementationFlags(MethodImplAttributes) |
Sets the method implementation flags for this constructor. |
SetImplementationFlagsCore(MethodImplAttributes) |
When overridden in a derived class, sets the method implementation flags for this constructor. |
SetMethodBody(Byte[], Int32, Byte[], IEnumerable<ExceptionHandler>, IEnumerable<Int32>) |
Creates the body of the constructor by using a specified byte array of Microsoft intermediate language (MSIL) instructions. |
SetSymCustomAttribute(String, Byte[]) |
Sets this constructor's custom attribute associated with symbolic information. |
ToString() |
Returns this ConstructorBuilder instance as a String. |
Explicit Interface Implementations
_ConstructorBuilder.GetIDsOfNames(Guid, IntPtr, UInt32, UInt32, IntPtr) |
Maps a set of names to a corresponding set of dispatch identifiers. |
_ConstructorBuilder.GetTypeInfo(UInt32, UInt32, IntPtr) |
Retrieves the type information for an object, which can then be used to get the type information for an interface. |
_ConstructorBuilder.GetTypeInfoCount(UInt32) |
Retrieves the number of type information interfaces that an object provides (either 0 or 1). |
_ConstructorBuilder.Invoke(UInt32, Guid, UInt32, Int16, IntPtr, IntPtr, IntPtr, IntPtr) |
Provides access to properties and methods exposed by an object. |
_ConstructorInfo.GetIDsOfNames(Guid, IntPtr, UInt32, UInt32, IntPtr) |
Maps a set of names to a corresponding set of dispatch identifiers. (Inherited from ConstructorInfo) |
_ConstructorInfo.GetType() |
Gets a Type object representing the ConstructorInfo type. (Inherited from ConstructorInfo) |
_ConstructorInfo.GetTypeInfo(UInt32, UInt32, IntPtr) |
Retrieves the type information for an object, which can then be used to get the type information for an interface. (Inherited from ConstructorInfo) |
_ConstructorInfo.GetTypeInfoCount(UInt32) |
Retrieves the number of type information interfaces that an object provides (either 0 or 1). (Inherited from ConstructorInfo) |
_ConstructorInfo.Invoke(UInt32, Guid, UInt32, Int16, IntPtr, IntPtr, IntPtr, IntPtr) |
Provides access to properties and methods exposed by an object. (Inherited from ConstructorInfo) |
_ConstructorInfo.Invoke_2(Object, BindingFlags, Binder, Object[], CultureInfo) |
Provides COM objects with version-independent access to the Invoke(Object, BindingFlags, Binder, Object[], CultureInfo) method. (Inherited from ConstructorInfo) |
_ConstructorInfo.Invoke_3(Object, Object[]) |
Provides COM objects with version-independent access to the Invoke(Object, Object[]) method. (Inherited from ConstructorInfo) |
_ConstructorInfo.Invoke_4(BindingFlags, Binder, Object[], CultureInfo) |
Provides COM objects with version-independent access to the Invoke(BindingFlags, Binder, Object[], CultureInfo) method. (Inherited from ConstructorInfo) |
_ConstructorInfo.Invoke_5(Object[]) |
Provides COM objects with version-independent access to the Invoke(Object[]) method. (Inherited from ConstructorInfo) |
_MemberInfo.GetIDsOfNames(Guid, IntPtr, UInt32, UInt32, IntPtr) |
Maps a set of names to a corresponding set of dispatch identifiers. (Inherited from MemberInfo) |
_MemberInfo.GetType() |
Gets a Type object representing the MemberInfo class. (Inherited from MemberInfo) |
_MemberInfo.GetTypeInfo(UInt32, UInt32, IntPtr) |
Retrieves the type information for an object, which can then be used to get the type information for an interface. (Inherited from MemberInfo) |
_MemberInfo.GetTypeInfoCount(UInt32) |
Retrieves the number of type information interfaces that an object provides (either 0 or 1). (Inherited from MemberInfo) |
_MemberInfo.Invoke(UInt32, Guid, UInt32, Int16, IntPtr, IntPtr, IntPtr, IntPtr) |
Provides access to properties and methods exposed by an object. (Inherited from MemberInfo) |
_MethodBase.GetIDsOfNames(Guid, IntPtr, UInt32, UInt32, IntPtr) |
Maps a set of names to a corresponding set of dispatch identifiers. (Inherited from MethodBase) |
_MethodBase.GetType() |
For a description of this member, see GetType(). (Inherited from MethodBase) |
_MethodBase.GetTypeInfo(UInt32, UInt32, IntPtr) |
Retrieves the type information for an object, which can then be used to get the type information for an interface. (Inherited from MethodBase) |
_MethodBase.GetTypeInfoCount(UInt32) |
Retrieves the number of type information interfaces that an object provides (either 0 or 1). (Inherited from MethodBase) |
_MethodBase.Invoke(UInt32, Guid, UInt32, Int16, IntPtr, IntPtr, IntPtr, IntPtr) |
Provides access to properties and methods exposed by an object. (Inherited from MethodBase) |
_MethodBase.IsAbstract |
For a description of this member, see IsAbstract. (Inherited from MethodBase) |
_MethodBase.IsAssembly |
For a description of this member, see IsAssembly. (Inherited from MethodBase) |
_MethodBase.IsConstructor |
For a description of this member, see IsConstructor. (Inherited from MethodBase) |
_MethodBase.IsFamily |
For a description of this member, see IsFamily. (Inherited from MethodBase) |
_MethodBase.IsFamilyAndAssembly |
For a description of this member, see IsFamilyAndAssembly. (Inherited from MethodBase) |
_MethodBase.IsFamilyOrAssembly |
For a description of this member, see IsFamilyOrAssembly. (Inherited from MethodBase) |
_MethodBase.IsFinal |
For a description of this member, see IsFinal. (Inherited from MethodBase) |
_MethodBase.IsHideBySig |
For a description of this member, see IsHideBySig. (Inherited from MethodBase) |
_MethodBase.IsPrivate |
For a description of this member, see IsPrivate. (Inherited from MethodBase) |
_MethodBase.IsPublic |
For a description of this member, see IsPublic. (Inherited from MethodBase) |
_MethodBase.IsSpecialName |
For a description of this member, see IsSpecialName. (Inherited from MethodBase) |
_MethodBase.IsStatic |
For a description of this member, see IsStatic. (Inherited from MethodBase) |
_MethodBase.IsVirtual |
For a description of this member, see IsVirtual. (Inherited from MethodBase) |
ICustomAttributeProvider.GetCustomAttributes(Boolean) |
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. (Inherited from MemberInfo) |
ICustomAttributeProvider.GetCustomAttributes(Type, Boolean) |
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. (Inherited from MemberInfo) |
ICustomAttributeProvider.IsDefined(Type, Boolean) |
Indicates whether one or more instance of |
Extension Methods
GetCustomAttribute(MemberInfo, Type) |
Retrieves a custom attribute of a specified type that is applied to a specified member. |
GetCustomAttribute(MemberInfo, Type, Boolean) |
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) |
Retrieves a custom attribute of a specified type that is applied to a specified member. |
GetCustomAttribute<T>(MemberInfo, Boolean) |
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) |
Retrieves a collection of custom attributes that are applied to a specified member. |
GetCustomAttributes(MemberInfo, Boolean) |
Retrieves a collection of custom attributes that are applied to a specified member, and optionally inspects the ancestors of that member. |
GetCustomAttributes(MemberInfo, Type) |
Retrieves a collection of custom attributes of a specified type that are applied to a specified member. |
GetCustomAttributes(MemberInfo, Type, Boolean) |
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) |
Retrieves a collection of custom attributes of a specified type that are applied to a specified member. |
GetCustomAttributes<T>(MemberInfo, Boolean) |
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) |
Indicates whether custom attributes of a specified type are applied to a specified member. |
IsDefined(MemberInfo, Type, Boolean) |
Indicates whether custom attributes of a specified type are applied to a specified member, and, optionally, applied to its ancestors. |
GetMetadataToken(MemberInfo) |
Gets a metadata token for the given member, if available. |
HasMetadataToken(MemberInfo) |
Returns a value that indicates whether a metadata token is available for the specified member. |