I recently read about the Dependency-Inversion Principal in Robert.C.Martin's excellent book Agile Principals, Patterns and Practices in C#. However there is one aspect of this principal that I feel I don't fully understand.

Robert explains that when high-level modules depend on lower level modules, changes in the lower level modules can cause the higher-level modules to change also. He demonstrates this with the following example:

public class Button
   private Lamp lamp;
   public void Poll(){
      if(/*some condition*/)

About this code Robert says "The Button class depends directly on Lamp class. This dependency implies that Button will be affected by changes to Lamp."

As I see it there are two possible kinds of change that we might make to the Lamp class:

1) We may want to change the internal implementation of the class but without affecting the public interface.

2) We may decide to change the public interface to say pass a parameter to the TurnOn method.

What I don't understand is that in the first case why would our changes cause a change to the Button class? The public interface to Lamp has not changed so why would Button need to change?

In the second case I can see that this would require us to change Button. But in this case how would depending on an abstraction change this? Surely if I have a valid reason to change the interface to Lamp then I would also be changing the interface in the abstraction that Lamp and Button depend on. In this case then I have to change Button anyway as the abstraction it depends on has changed.

I realise that there are other benefits to DIP such as re-usability of higher level modules, ownership of interfaces by higher level modules and ability to choose implementations of dependencies at runtime, however I'm struggling to understand how DIP reduces the need for depending modules to change when the interface to a lower level module changes and/or why internal changes in a dependant module may cause change in higher level modules.

2 Answers 2


I believe the important difference that DIP brings into this example is ownership of the interface. Particularly which layer owns the interface, where the Button is the client and the Lamp is the server.

In the dependency to the concrete class Lamp, the interface (.TurnOn()) is owned by the Lamp class (server). Therefore a decision can be made to change the .TurnOn() method based solely on the needs of the server as it owns the method, and this will require a subsequent change to the Button class (client).

When the interface is abstracted to an ISwitchableDevice Interface/Abstract class, the ownership is transfered to the client or a shared layer. Therefore a change to the interface cannot be driven directly by servers needs, any changes to the Lamp class (owned by the server) can be made without changing the interface. And if changes to the ISwitchableDevice Interface are required then this will be driven by the needs of the client or shared layer.


For example, regarding the interface, if changes are made to the constructor of Lamp (which is a part of the public interface) and you're dependant on an abstract base, or an interface those changes wouldn't propagate to the implementation of button (unless if you construct it there, but that's partially another problem).
As for "pure implementation", a properly encapsulated design where no changes to the interface of any kind is made (constructors, exceptions that can be thrown etc) and no common global dependencies have changed, then it should not affect the caller, so that is less of an issue.

Basically, regarding these issues, we are reducing surface area, so we are dependent on less specifics, although some specifics will always be necessary.

Whether or not an abstraction is useless clutter or invaluable separation, that needs to be decided from case to case.

  • Thanks Daniel. I see that changing the constructor of a concrete service is an example where depending on an interface would isolate the depending class from the change (assuming it does not do the construction), however I still feel that I am missing something. Robert talks about dependency being transitive in his article: if A->B and B->C then a change in class C can force change in class B and in class A. I still don't really understand how this can be the case. Even if we did make a change to the public interface of C, why would this affect A?
    – John
    Aug 2, 2012 at 19:20
  • if class c get's a new dependency, and that dependecy isn't available in class b, but it is available in a, then a might have to provide that dependency to b so b can provide it to c
    – Daniel
    Aug 3, 2012 at 11:41

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