There are three primary parts to the .NET framework:
- Compiler (MSBuild)
- Runtime environment (CLR) - virtual machine, garbage collector, etc.
- Supporting libraries (FCL)- System, ADO.NET, LINQ, WPF, WCF, etc.
All three of the above are included with the freely-distributed .NET Framework. The term .NET Framework refers collectively, and loosely, to all of those things, but they each perform very different roles. The answer to your question is different for each of those parts.
Compiler
As you probably know, you cannot run VB.NET code directly. It must first be compiled into an executable which can be launched as a Windows process. The compiler is used to compile a variety of high level languages (such as VB.NET and C#) into assemblies (e.g. EXEs, DLLs). Unlike native compilers, though, .NET assemblies do not contain native machine code. Instead, the .NET compiler compiles into .NET assemblies which contain MSIL code. MSIL is a slightly-higher-level-than-machine-code language which, in theory, can be run by a virtual machine on any platform.
The compiler is obviously not visible in your code. Obviously there is no place in your code where you can say "that's the compiler". Rather, the compiler is the tool that you use to compile all of your code. The compiler, though, does dictate what languages you can use. If the .NET framework does not contain a Ruby compiler, then you can't very well write a .NET application in Ruby. So, in that way, the fact that your code is written in VB.NET or C# at all is the indication that it will be compiled using the .NET Framework.
You may be thinking, "The compiler isn't part of the framework--that's part of Visual Studio." But if you were thinking that, you would be wrong. The compiler is installed as part of the .NET framework. You don't technically need Visual Studio to compile a .NET application. You could write an application in any .NET language, using Notepad, and then compile and run it with the .NET Framework without ever having installed Visual Studio.
The compiler portion of the .NET Framework is referred to as MSBuild.
Runtime Environment
Since the compiler compiles your high-level code into MSIL assemblies, rather than into native machine-code binaries, you must have the .NET Framework installed in order to run any .NET application. When you run a .NET application, the Framework is responsible for just-in-time (JIT) compiling the MSIL code into machine code so that it can be executed on your current platform. It also provides the memory management features such as garbage collection.
The same runtime environment is shared by all .NET languages (since all .NET languages compile to MSIL code). Therefore, it's not a VB.NET runtime environment nor a C# runtime environment, but rather, it's a MSIL runtime environment. Instead of having one runtime environment per language, there is actually one runtime environment per platform. A separate environment must be custom implemented for each processor architecture and each operating system on which the Framework will run.
This part of the framework is largely invisible to you and your code. There are some methods you can call to access the GAC, or the garbage collector, or the .NET security system, but other than that, you don't even know it's there. Unless the Framework isn't installed, that is--in that case, it becomes clear very quickly just how necessary it is.
The runtime-environment portion of the .NET Framework is referred to as the Common Language Runtime (CLR).
Supporting Libraries
The .NET Framework comes packed with many extraordinarily useful libraries (DLLs). For instance, every application references the mscorlib.dll
and System.dll
libraries, which provide many of the core data types in the System
namespace. There are many other libraries which you can optionally reference with your projects as necessary.
These supporting libraries are provided as already-compiled MSIL assemblies, so they can all be referenced and used by projects written in any .NET supported language. When you call Console.WriteLine("Hello World")
in VB.NET and Console.WriteLine("Hello World");
in C#, you are calling the exact same .NET Framework library. The Console
class is defined in the mscorlib.dll
library. It doesn't matter which language you use to call it, it always does the same thing.
The supporting libraries are very visible in your code. Any time you use anything that is not explicitly defined by you in your own code, you are using the Framework (unless, of course, it's something from a third-party library). In your example code above, you are using Integer
and Console
. Both of those types are defined by the .NET Framework's supporting libraries (both are defined by mscorlib.dll
). In other words, the language is all of the syntax that you use to make the calls to the Framework. Everything else is the Framework.
If you want to "see" the supporting libraries, the best place to start is in Visual Studio. You can use the Object Browser to browse through all of the types defined by the libraries that you currently have referenced in your project. If you want to reference more .NET Framework libraries, go to your Project Properties designer's References tab, click the Add... button, then select the Asseblies > Framework option. That will list all of the supporting libraries that are provided as part of the .NET Framework. If you want to find out more about any of the functionality provided by any of those libraries, your best resource is the MSDN (and Stack Overflow, of course).
The supporting libraries portion of the .NET Framework is referred to as the Framework Class Library (FCL).