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Type.GetType Method (String)

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Gets the Type with the specified name, performing a case-sensitive search.

Namespace:  System
Assembly:  mscorlib (in mscorlib.dll)

Syntax

'Declaration
Public Shared Function GetType ( _
    typeName As String _
) As Type
public static Type GetType(
    string typeName
)

Parameters

  • typeName
    Type: System.String
    The assembly-qualified name of the type to get. See AssemblyQualifiedName. If the type is in the currently executing assembly or in Mscorlib.dll, it is sufficient to supply the type name qualified by its namespace.

Return Value

Type: System.Type
The Type with the specified name, if found; otherwise, nulla null reference (Nothing in Visual Basic).

Exceptions

Exception Condition
ArgumentNullException

typeName is nulla null reference (Nothing in Visual Basic).

TargetInvocationException

A class initializer is invoked and throws an exception.

ArgumentException

typeName represents a generic type that has a pointer type, a ByRef type, or Void as one of its type arguments.

-or-

typeName represents a generic type that has an incorrect number of type arguments.

-or-

typeName represents a generic type, and one of its type arguments does not satisfy the constraints for the corresponding type parameter

TypeLoadException

typeName represents an array of TypedReference.

FileNotFoundException

The assembly or one of its dependencies was not found.

FileLoadException

The assembly or one of its dependencies was found, but could not be loaded.

BadImageFormatException

The assembly or one of its dependencies is not valid.

-or-

The assembly was compiled with a later version of the .NET Framework.

Remarks

You can use the GetType method to obtain a Type object for a type in another assembly, if the you know its namespace-qualified name. GetType causes loading of the assembly specified in typeName. You can also load an assembly using the Load method, and then use the GetType or GetTypes methods of the Assembly class to get Type objects. If a type is in an assembly known to your program at compile time, it is more efficient to use typeof in C#, GetType in Visual Basic, or typeid in C++.

GetType only works on assemblies loaded from disk. If you call GetType to look up a type defined in a dynamic assembly defined using the System.Reflection.Emit services, you might get inconsistent behavior. The behavior depends on whether the dynamic assembly is persistent, that is, created using the RunAndSave or Save access modes of the System.Reflection.Emit.AssemblyBuilderAccess enumeration. If the dynamic assembly is persistent and has been written to disk before GetType is called, the loader finds the saved assembly on disk, loads that assembly, and retrieves the type from that assembly. If the assembly has not been saved to disk when GetType is called, the method returns nulla null reference (Nothing in Visual Basic). GetType does not understand transient dynamic assemblies; therefore, calling GetType to retrieve a type in a transient dynamic assembly returns nulla null reference (Nothing in Visual Basic).

To use GetType on a dynamic module, subscribe to the AppDomain.AssemblyResolve event and call GetType before saving. Otherwise, you will get two copies of the assembly in memory.

The following table shows what members of a base class are returned by the Get methods when reflecting on a type.

Member Type

Static

Non-Static

Constructor

No

No

Field

No

Yes. A field is always hide-by-name-and-signature.

Event

Not applicable

The common type system rule is that the inheritance is the same as that of the methods that implement the property. Reflection treats properties as hide-by-name-and-signature. See note 2 below.

Method

No

Yes. A method (both virtual and non-virtual) can be hide-by-name or hide-by-name-and-signature.

Nested Type

No

No

Property

Not applicable

The common type system rule is that the inheritance is the same as that of the methods that implement the property. Reflection treats properties as hide-by-name-and-signature. See note 2 below.

Notes:

  1. Hide-by-name-and-signature considers all of the parts of the signature, including custom modifiers, return types, parameter types, sentinels, and unmanaged calling conventions. This is a binary comparison.

  2. For reflection, properties and events are hide-by-name-and-signature. If you have a property with both a get and a set accessor in the base class, but the derived class has only a get accessor, the derived class property hides the base class property, and you will not be able to access the setter on the base class.

  3. Custom attributes are not part of the common type system.

Arrays or COM types are not searched for unless they have already been loaded into the table of available classes.

typeName can be the type name qualified by its namespace or an assembly-qualified name that includes an assembly name specification. See AssemblyQualifiedName.

If typeName includes the namespace but not the assembly name, this method searches only the calling object's assembly and Mscorlib.dll, in that order. If typeName is fully qualified with the partial or complete assembly name, this method searches in the specified assembly. If the assembly has a strong name, a complete assembly name is required.

The AssemblyQualifiedName property returns a fully qualified type name including nested types, the assembly name, and generic type arguments. All compilers that support the common language runtime will emit the simple name of a nested class, and reflection constructs a mangled name when queried, in accordance with the following conventions.

Delimiter

Meaning

Backslash (\)

Escape character.

Backtick (`)

Precedes one or more digits representing the number of type parameters, located at the end of the name of a generic type.

Brackets ([])

Enclose a generic type argument list, for a constructed generic type; within a type argument list, enclose an assembly-qualified type.

Comma (,)

Precedes the Assembly name.

Period (.)

Denotes namespace identifiers.

Plus sign (+)

Precedes a nested class.

For example, the fully qualified name for a class might look like this:

TopNamespace.SubNameSpace.ContainingClass+NestedClass,MyAssembly

If the namespace were TopNamespace.Sub+Namespace, then the string would have to precede the plus sign (+) with an escape character (\) to prevent it from being interpreted as a nesting separator. Reflection emits this string as follows:

TopNamespace.Sub\+Namespace.ContainingClass+NestedClass,MyAssembly

A "++" becomes "\+\+", and a "\" becomes "\\".

This qualified name can be persisted and later used to load the Type. To search for and load a Type, use GetType either with the type name only or with the assembly qualified type name. GetType with the type name only will look for the Type in the caller's assembly and then in the System assembly. GetType with the assembly qualified type name will look for the Type in any assembly.

Type names may include trailing characters that denote additional information about the type, such as whether the type is a reference type, a pointer type or an array type. To retrieve the type name without these trailing characters, use t.GetElementType().ToString(), where t is the type.

Spaces are relevant in all type name components except the assembly name. In the assembly name, spaces before the ',' separator are relevant, but spaces after the ',' separator are ignored.

The name of a generic type ends with a backtick (`) followed by digits representing the number of generic type arguments. The purpose of this name mangling is to allow compilers to support generic types with the same name but with different numbers of type parameters, occurring in the same scope. For example, reflection returns the mangled names Tuple`1 and Tuple`2 from the generic methods Tuple(Of T) and Tuple(Of T0, T1) in Visual Basic, or Tuple<T> and Tuple<T0, T1> in Visual C#.

For generic types, the type argument list is enclosed in brackets, and the type arguments are separated by commas. For example, a generic Dictionary<TKey, TValue> has two type parameters. A Dictionary<TKey, TValue> of MyType with keys of type String might be represented as follows:

System.Collections.Generic.Dictionary`2[System.String,MyType]

To specify an assembly-qualified type within a type argument list, enclose the assembly-qualified type within brackets. Otherwise, the commas that separate the parts of the assembly-qualified name are interpreted as delimiting additional type arguments. For example, a Dictionary<TKey, TValue> of MyType fromMyAssembly.dll, with keys of type String, might be specified as follows:

Type.GetType("System.Collections.Generic.Dictionary`2[System.String,[MyType,MyAssembly]]")
NoteNote:

An assembly-qualified type can be enclosed in brackets only when it appears within a type parameter list. The rules for searching assemblies for qualified and unqualified types in type parameter lists are the same as the rules for qualified and unqualified nongeneric types.

Nullable types are a special case of generic types. For example, a nullable Int32 is represented by the string "System.Nullable`1[System.Int32]".

NoteNote:

In C#, C++, and Visual Basic you can also get nullable types using type operators. For example, the nullable Boolean type is returned by typeof(Nullable<bool>) in C#, by Nullable<Boolean>::typeid in C++, and by GetType(Nullable(Of Boolean)) in Visual Basic.

The following table shows the syntax you use with GetType for various types.

To Get

Use

A nullable Int32

Type.GetType("System.Nullable`1[System.Int32]")

An unmanaged pointer to MyType

Type.GetType("MyType*")

An unmanaged pointer to a pointer to MyType

Type.GetType("MyType**")

A managed pointer or reference to MyType

Type.GetType("MyType&"). Note that unlike pointers, references are limited to one level.

A parent class and a nested class

Type.GetType("MyParentClass+MyNestedClass")

A one-dimensional array with a lower bound of 0

Type.GetType("MyType[]")

A one-dimensional array with an unknown lower bound

Type.GetType("MyType[*]")

An n-dimensional array

A comma (,) inside the brackets a total of n-1 times. For example, System.Object[,,] represents a three-dimensional Object array.

An array of one-dimensional arrays

Type.GetType("MyType[][]")

A rectangular two-dimensional array with unknown lower bounds

Type.GetType("MyType[,]")

A generic type with one type argument

Type.GetType("MyGenericType`1[MyType]")

A generic type with two type arguments

Type.GetType("MyGenericType`2[MyType,AnotherType]")

A generic type with two assembly-qualified type arguments

Type.GetType("MyGenericType`2[[MyType,MyAssembly],[AnotherType,AnotherAssembly]]")

An assembly-qualified generic type with an assembly-qualified type argument

Type.GetType("MyGenericType`1[[MyType,MyAssembly]],MyGenericTypeAssembly")

A generic type whose type argument is a generic type with two type arguments

Type.GetType("MyGenericType`1[AnotherGenericType`2[MyType,AnotherType]]")

Platform Notes

Silverlight for Windows Phone Silverlight for Windows Phone

 GetType does not always throw an ArgumentException exception if you pass it an invalid parameter. Catch exceptions of type Exception to trap unexpected exceptions.

Examples

The following example retrieves the type of System.Int32 and uses that type object to display the FullName property of System.Int32.

Class Example
    Public Shared Sub Demo(ByVal outputBlock As System.Windows.Controls.TextBlock)
        Try
            ' Get the type of the specified class.
            Dim myType1 As Type = Type.GetType("System.Int32")
            outputBlock.Text += String.Format("The full name is {0}.", myType1.FullName) & vbCrLf
            ' Since NoneSuch does not exist in this assembly, GetType throws a TypeLoadException.
            Dim myType2 As Type = Type.GetType("NoneSuch", True)
            outputBlock.Text += String.Format("The full name is {0}.", myType2.FullName) & vbCrLf
        Catch e As TypeLoadException
            outputBlock.Text &= e.Message.ToString() & vbCrLf
        Catch e As Exception
            outputBlock.Text &= e.Message.ToString() & vbCrLf
        End Try
    End Sub 
End Class 

' This example produces output similar to the following:
'
'The full name is System.Int32.
'Could not load type 'NoneSuch' from assembly 'SilverlightApplication, Version=0.0.0.0, Culture = neutral, PublicKeyToken=null'.
using System;
class Example
{
    public static void Demo(System.Windows.Controls.TextBlock outputBlock)
    {
        try
        {
            // Get the type of a specified class.
            Type myType1 = Type.GetType("System.Int32");
            outputBlock.Text += String.Format("The full name is {0}.", myType1.FullName) + "\n";
            // Since NoneSuch does not exist in this assembly, GetType throws a TypeLoadException.
            Type myType2 = Type.GetType("NoneSuch", true);
            outputBlock.Text += String.Format("The full name is {0}.", myType2.FullName) + "\n";
        }
        catch (TypeLoadException e)
        {
            outputBlock.Text += e.Message + "\n";
        }
        catch (Exception e)
        {
            outputBlock.Text += e.Message + "\n";
        }
    }
}

/* This example produces output similar to the following:

The full name is System.Int32.
Could not load type 'NoneSuch' from assembly 'SilverlightApplication, Version=0.0.0.0, Culture = neutral, PublicKeyToken=null'.
 */

Version Information

Silverlight

Supported in: 5, 4, 3

Silverlight for Windows Phone

Supported in: Windows Phone OS 7.1, Windows Phone OS 7.0

XNA Framework

Supported in: Xbox 360, Windows Phone OS 7.0

Platforms

For a list of the operating systems and browsers that are supported by Silverlight, see Supported Operating Systems and Browsers.