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I came across this code :

int myInt = 0;
textBox1.Text = myInt.GetType().Name;

According to the .NET documentation, GetType() is a method, not a class.

My question is that how am I able to use the dot with a method, like this GetType().Name?

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2  
Because it returns an object and objects have properties which you access with the dot syntax. –  vanneto Jan 30 '13 at 8:47

8 Answers 8

up vote 9 down vote accepted

A method can return a class instance, here it´s an instance of the class Type. On this object you can access properties, other methods, etc.

Your code could be written as this:

int myInt = 0;
Type t = myInt.GetType();
textBox1.Text = t.Name;

Maybe it´s easier to understand that way.

Edit: A method call like GetType() executes the method, and everything you do after the . applies to the return value of the method, in this case an object of type Type.

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1  
thanks for all people that answered the question .this answer stand out however. –  docesam Jan 30 '13 at 9:00

GetType() is a method that returns an instance of a class (in this case, an instance of the Type class.

Members of that returned instance of Type are accessed via the dot syntax.

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Because GetType() returns an instance of an object, you can use the dot to access properties or methods of the object that it returns.

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The term is commonly know as chaining (certainly in C# and JavaScript) or fluent interface.

So as the other two answers suggested, you are return an instance and executing the methods that are part of that class.

To quote wikipedia:

In software engineering, a fluent interface (as first coined by Eric Evans and Martin Fowler) is an implementation of an object oriented API that aims to provide for more readable code.

A fluent interface is normally implemented by using method chaining to relay the instruction > context of a subsequent call (but a fluent interface entails more than just method chaining). Generally, the context is defined through the return value of a called method self-referential, where the new context is equivalent to the last context terminated through the return of a void context.

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+1 for chaining –  docesam Apr 21 at 18:51

From MSDN;

Return Value
Type: System.Type
The exact runtime type of the current instance.

So basicly, it returns a class instance. That's why you can access its properties as well. Let's look at this example;

int i = 0;
Console.WriteLine(i.GetType()); // Gets the System.Type of the current instance.
Console.WriteLine(i.GetType().Name); // Gets the name of the current member.

Output will be

System.Int32
Int32

Here is a DEMO.

On this case, Name property is MemberInfo.Name property. It includes System.Reflection namespace.

Gets the name of this member.

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Object.GetType() returns the exact runtime type of the current instance.


Example :

using System;

public class MyBaseClass {
}

public class MyDerivedClass: MyBaseClass {
}

public class Test 
{
   public static void Main() 
   {
      MyBaseClass myBase = new MyBaseClass();
      MyDerivedClass myDerived = new MyDerivedClass();
      object o = myDerived;
      MyBaseClass b = myDerived;

      Console.WriteLine("mybase: Type is {0}", myBase.GetType());
      Console.WriteLine("myDerived: Type is {0}", myDerived.GetType());
      Console.WriteLine("object o = myDerived: Type is {0}", o.GetType());
      Console.WriteLine("MyBaseClass b = myDerived: Type is {0}", b.GetType());
   }
}
// The example displays the following output: 
//    mybase: Type is MyBaseClass 
//    myDerived: Type is MyDerivedClass 
//    object o = myDerived: Type is MyDerivedClass 
//    MyBaseClass b = myDerived: Type is MyDerivedClass 

Reference : MSDN

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Because GetType() returns an object, C# language allows you to invoke any member of the object being returned, so your code is a very valid example.

EDIT: Check Jobo's answer to better understand how your code can be written in a more intelligible form

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GetType() Gets a Type object that represents the specified type. Type represents class types, interface types, array types, value types, enumeration types, type parameters, generic type definitions. On the type you can access method or property.

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