MethodInfo.MakeGenericMethod Method
[ This article is for Windows Phone 8 developers. If you’re developing for Windows 10, see the latest documentation. ]
Substitutes the elements of an array of types for the type parameters of the current generic method definition, and returns a MethodInfo object representing the resulting constructed method.
Assembly: mscorlib (in mscorlib.dll)
Parameters
- typeArguments
- Type:
System.Type
[]
An array of types to be substituted for the type parameters of the current generic method definition.
Return Value
Type: System.Reflection.MethodInfoA MethodInfo object that represents the constructed method formed by substituting the elements of typeArguments for the type parameters of the current generic method definition.
| Exception | Condition |
|---|---|
| InvalidOperationException | The current MethodInfo does not represent a generic method definition. That is, IsGenericMethodDefinition returns false. |
| ArgumentNullException | typeArguments is null. -or- Any element of typeArguments is null. |
| ArgumentException | The number of elements in typeArguments is not the same as the number of type parameters of the current generic method definition. -or- An element of typeArguments does not satisfy the constraints specified for the corresponding type parameter of the current generic method definition. |
| NotSupportedException | This method is not supported. |
The MakeGenericMethod method allows you to write code that assigns specific types to the type parameters of a generic method definition, thus creating a MethodInfo object that represents a particular constructed method. If the ContainsGenericParameters property of this MethodInfo object returns true, you can use it to invoke the method or to create a delegate to invoke the method.
Methods constructed with the MakeGenericMethod method can be open, that is, some of their type arguments can be type parameters of enclosing generic types. You might use such open constructed methods when you generate dynamic assemblies. For example, consider the following C# and Visual Basic code.
class C
{
T N<T,U>(T t, U u) {...}
public V M<V>(V v)
{
return N<V,int>(v, 42);
}
}
Class C
Public Function N(Of T,U)(ByVal ta As T, ByVal ua As U) As T
...
End Function
Public Function M(Of V)(ByVal va As V ) As V
Return N(Of V, Integer)(va, 42)
End Function
End Class
The method body of M contains a call to method N, specifying the type parameter of M and the type Int32. The IsGenericMethodDefinition property returns false for method N<V,int>. The ContainsGenericParameters property returns true, so method N<V,int> cannot be invoked.
For a list of the invariant conditions for terms specific to generic methods, see the IsGenericMethod property. For a list of the invariant conditions for other terms used in generic reflection, see the IsGenericType property.
Version Notes
Windows Phone
MakeGenericMethod is present but not supported in Windows Phone.The following code example demonstrates the properties and methods of MethodInfo that support the examination of generic methods. The example does the following:
Defines a class that has a generic method.
Creates a MethodInfo that represents the generic method.
Displays properties of the generic method definition.
Assigns type arguments to the type parameters of the MethodInfo, and invokes the resulting constructed generic method.
Displays properties of the constructed generic method.
Retrieves the generic method definition from the constructed method and compares it to the original definition.
Note: |
|---|
To run this example, see Building examples that have static TextBlock controls for Windows Phone 8. |
using System; using System.Reflection; // Define a class with a generic method. public class Test { public static void Generic<T>(System.Windows.Controls.TextBlock outputBlock, T toDisplay) { outputBlock.Text += String.Format("\r\nHere it is: {0}", toDisplay) + "\n"; } } public class Example { public static void Demo(System.Windows.Controls.TextBlock outputBlock) { outputBlock.Text += "\r\n--- Examine a generic method." + "\n"; // Create a Type object representing class Test, and // get a MethodInfo representing the generic method. // Type ex = typeof(Test); MethodInfo mi = ex.GetMethod("Generic"); DisplayGenericMethodInfo(outputBlock, mi); // Assign the int type to the type parameter of the Example // method. // MethodInfo miConstructed = mi.MakeGenericMethod(typeof(int)); DisplayGenericMethodInfo(outputBlock, miConstructed); // Invoke the method. object[] args = {outputBlock, 42}; miConstructed.Invoke(null, args); // Invoke the method normally. Test.Generic<int>(outputBlock, 42); // Get the generic type definition from the closed method, // and show it's the same as the original definition. // MethodInfo miDef = miConstructed.GetGenericMethodDefinition(); outputBlock.Text += String.Format("\r\nThe definition is the same: {0}", miDef == mi) + "\n"; } private static void DisplayGenericMethodInfo(System.Windows.Controls.TextBlock outputBlock, MethodInfo mi) { outputBlock.Text += String.Format("\r\n{0}", mi) + "\n"; outputBlock.Text += String.Format("\tIs this a generic method definition? {0}", mi.IsGenericMethodDefinition) + "\n"; outputBlock.Text += String.Format("\tIs it a generic method? {0}", mi.IsGenericMethod) + "\n"; outputBlock.Text += String.Format("\tDoes it have unassigned generic parameters? {0}", mi.ContainsGenericParameters) + "\n"; // If this is a generic method, display its type arguments. // if (mi.IsGenericMethod) { Type[] typeArguments = mi.GetGenericArguments(); outputBlock.Text += String.Format("\tList type arguments ({0}):", typeArguments.Length) + "\n"; foreach (Type tParam in typeArguments) { // IsGenericParameter is true only for generic type // parameters. // if (tParam.IsGenericParameter) { outputBlock.Text += String.Format("\t\t{0} parameter position {1}" + "\n\t\t declaring method: {2}", tParam, tParam.GenericParameterPosition, tParam.DeclaringMethod) + "\n"; } else { outputBlock.Text += String.Format("\t\t{0}", tParam) + "\n"; } } } } } /* This example produces the following output: --- Examine a generic method. Void Generic[T](T) Is this a generic method definition? True Is it a generic method? True Does it have unassigned generic parameters? True List type arguments (1): T parameter position 0 declaring method: Void Generic[T](T) Void Generic[Int32](Int32) Is this a generic method definition? False Is it a generic method? True Does it have unassigned generic parameters? False List type arguments (1): System.Int32 Here it is: 42 Here it is: 42 The definition is the same: True */
Note: