I am actually working on my first VBA project. (come from C++)

I would like to improve an existing VBA project used by a Microsoft Excel workbook by implementing classes and polymorphism.

My problem is:

1 - I read a lot of articles/forums which explain that VBA is not an Object Oriented Programming (OOP) language and do not support Polymorphism.

Some of them propose a workaround using the keyword Implements.

2 - I also found some webpages like this one which explain how to perform OOP and polymorphism in VBA using keywords like Inherits, Overrides, Overridable, MustOverrides.

So my question is :

Is VBA an OOP language, and does it support polymorphism ?

  • 6
    Point 2 is about VB, not VBA. There is no such keywords like Inherits, Overrides, Overridable, MustOverrides in VBA.
    – mielk
    Commented Aug 6, 2015 at 14:22
  • Ok, but I though VBA was VB for Application. Is is not the same base language ?
    – Axel Borja
    Commented Aug 6, 2015 at 14:24
  • 7
    Visual Basic for Applications (VBA) is an event-driven, object-oriented programming language for writing macros, used for the entire Office suite as well as other applications.... this is a definition by stackoverflow :). Here some posts about Implements in VBA.
    – gembird
    Commented Aug 6, 2015 at 14:27
  • 2
    VBA is much like VB from Visual studio version 6 and older. VB now is VB.NET. Much of what is VB.NET is not in VBA.
    – MatthewD
    Commented Aug 6, 2015 at 14:34
  • 1
    Here good example with Implments.
    – gembird
    Commented Aug 6, 2015 at 14:35

2 Answers 2


OOP is sitting on 4 "pillars":

  • check Abstraction - Abstracting logic and concepts can easily be done by defining objects in class modules. Strictly speaking, abstraction is also achieved by using meaningful identifiers and extracting procedural code into methods (class members).

    Here's an example of a procedure written in VBA that demonstrates abstraction:

     Public Sub Test(ByVal checkin As Date, ByVal checkout As Date, ByVal custType As CustomerType)
         Dim finder As New HotelFinder
         InitializeHotels finder
         Debug.Print finder.FindCheapestHotel(checkin, checkout, custType)
     End Sub

    It's easy to tell what this Test procedure does at a glance, because the abstraction level is very high: the implementation details are abstracted away into more specialized objects and methods.

  • check Encapsulation - Classes can have private fields exposed by properties; classes can be made PublicNotCreatable, effectively exposing types to other VBA projects - and with a little bit of effort (by exporting the class module, opening it in your favorite text editor, manually editing class attributes, and re-importing the module), you can achieve actual read-only types. The fact that there are no parameterized constructors is irrelevant - just write a factory method that takes all the parameters you like and return an instance. This is COM, and COM likes factories anyway.

    Here's an example of how the HotelFinder class from the above snippet encapsulates a Collection object and only exposes it through a Property Get accessor - code outside this class simply cannot Set this reference, it's encapsulated:

     Private Type TFinder
         Hotels As Collection
     End Type
     Private this As TFinder
     Public Property Get Hotels() As Collection
         Set Hotels = this.Hotels
     End Property
     Private Sub Class_Initialize()
         Set this.Hotels = New Collection
     End Sub
     Private Sub Class_Terminate()
         Set this.Hotels = Nothing
     End Sub
  • check Polymorphism - Implements lets you implement abstract interfaces (and concrete classes, too), and then you can write code against an ISomething abstraction that can just as well be a Foo or a Bar (given Foo and Bar both implement ISomething) - and all the code ever needs to see is ISomething. Method overloading is a language feature that VBA lacks, but overloading has nothing to do with polymorphism, which is the ability to present the same interface for differing underlying forms (data types).

    Here's an example of applied polymorphism - the LogManager.Register method is happy to work with any object that implements the ILogger interface; here a DebugLogger and a FileLogger - two wildly different implementations of that interface, are being registered; when LogManager.Log(ErrorLevel, Err.Description) is invoked later, the two implementations will each do their own thing; DebugLogger will output to the immediate toolwindow, and FileLogger will write an entry into a specified log file:

     LogManager.Register DebugLogger.Create("MyLogger", DebugLevel)
     LogManager.Register Filelogger.Create("TestLogger", ErrorLevel, "C:\Dev\VBA\log.txt")
  • nope Inheritance - VBA does not let you derive a type from another: inheritance is not supported.

Now the question is, can a language that doesn't support inheritance be qualified as "object-oriented"? It turns out composition is very often preferable to inheritance, which has a number of caveats. And VBA will let you compose objects to your heart's content.

Is VBA an OOP language?

Given all that's missing is inheritance, and that composition is preferable to inheritance, I'm tempted to answer "Yes". I've written full-blown OOP VBA code before (Model-View-Presenter with Unit-of-Work and Repository, anyone?), that I wouldn't have written any differently in a "real OOP" language that supports inheritance.

Here are a few examples, all 100% VBA:

The code in this last link was eventually ported to C#, and quickly evolved into a COM add-in for the VBA IDE that gives you refactorings, better navigation, code inspections, and other tools.

VBA is only as limiting as you make it.

  • 8
    Achieving the same aim by working in a way that contradicts a definition doesn't mean that your approach is the same as the defined approach. If OOP requires four facets and you have three of those facets plus another way to achieve something similar to the fourth facet in the long run but which is implement in a very different and more convuluted manner it doesn't mean that you have all four facets. Exagerating to make a point: I have a petrol car, if I put diesel in it and push it somewhere it does not mean that I have a diesel car.
    – stucharo
    Commented Aug 7, 2015 at 9:13
  • 2
    By the way, I'm a big fan of your Rubberduck Add-In. A straightforward unit testing framework for VBA was a godsend, plus a project explorer that is actually useful! I assume you switched to C# when you wanted it to be OOP :P
    – stucharo
    Commented Aug 7, 2015 at 9:28
  • 2
    OOP doesn't require inheritance, it just requires polymorphism. Thanks for the complement on the project btw. We didn't switch to C# because we wanted it to be OOP, we switched to C# because it's easier to manage and it's flavor of OOP doesn't have the same limitations.
    – RubberDuck
    Commented Aug 7, 2015 at 14:32
  • 1
    I've added some all-VBA examples for each point I'm making. Code doesn't get any more object-oriented than that. Commented Jan 10, 2018 at 16:22

The short answers are no and no.

VBA is object based, allowing you to define classes and create instances of objects but it lacks the features that would normally be associated with a fully fledged OOP language, for example:

  • Encapsulation and abstraction: VBA provides this to an extent. Classes can be kept private with public interfaces defined, however there is no provision for constructors within classes. Classes have a Class_Inititalize event which can do some construction but cannot take arguments. Passing arguments would require a public factory function workarounds are still required to create a constructor-style design pattern.
  • Inheritance: Doesn't really exist in VBA but can be almost replicated
  • Polymorphism: Can be achieved to an extent through interfaces (using Implements) although the ability to overload functions (for example) doesn't exist and each "overload" would technically require a unique function name. You can work around this by passing in an object as the only parameter to a function or sub and vary the procedure depending on the values of the properties.

So while you can work with objects to an extent and MS Office applications are based around an object model, VBA is not truely an Object Oriented language. Polymorphism cannot be achieved to the extent that you would be familiar with in C++.

  • 2
    VBA may not support inheritance, but it does support composition which is a different means to the same end in many ways.
    – Blackhawk
    Commented Aug 6, 2015 at 15:01
  • 5
    I would be tempted to argue that VBA is, in fact, an Object Oriented language by most definitions, but which omits many of the common features that people are used to in robust OO languages like Java or C#.
    – Blackhawk
    Commented Aug 6, 2015 at 15:10
  • 1
    @Blackhawk I dunno, it doesn't even provide inheritance, I'd argue that that was a fundemental requirement to be object oriented. I would probably stick with an object based language that supports some object oriented features.
    – stucharo
    Commented Aug 6, 2015 at 15:16
  • 5
    It seems to me that the purpose of inheritance in OOP is to function as re-use and polymorphism. Composition and interfaces are another way of achieving the same thing, and in fact are sometimes the better choice (see the diamond problem). I would agree that re-use and polymorphism are necessary for OOP and VBA has them. See the SOLID principles of OOP and compare them against VBA functionality.
    – Blackhawk
    Commented Aug 6, 2015 at 15:29
  • 6
    All that being said, if VBA is OOP, it's definitely the bastard step-child of OO languages.
    – Blackhawk
    Commented Aug 6, 2015 at 15:30

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