Question

Ok, I may resort to a tad ranting here, so let me apologize in advance, but I'm really curious if others find this pattern annoying too (and I wonder if it is a justifiable pattern)…

So, after just looking at a particular question, I noticed that almost all of the responses suggested creating an interface for injecting a mock in some test code.

I don't mind using interfaces, and sometimes they can really help in static typed languages like C# and Java… but I do mind seeing interfaces for almost every class in a system (or in general being used where they aren't really needed).

I have 2 major problems with using an interface when it isn't called for:

• You abstract away where the implementation is coming from. This problem has a couple consequences… in an IDE, it means that when I try to browse to the source of this method being called… I get taken to an interface instead of some code that I can look at and see what is going on. This bothers me a lot, but also this is a real problem to me to hide where the implementation is coming from (sometimes it can be in non-obvious locations).
• It adds ANOTHER file to the system. I tend to be a minimalist in my programming… if I don't really need another method, or another class, or even another file… not unless that extra thing is justified (flexibility that is going to be used, or makes the design cleaner, or provides some real benefit).

Now… if you are testing something, and you create an interface JUST TO ALLOW MOCKING… this seems to be adding a layer of minor headaches for no real benefit. What does creating the interface do that just overriding the class won't do? What is so bad about having a mock that merely overrides some methods of the single implementation class?

I guess it should be no surprise then that I much prefer Java's default virtual methods (ie requiring a final keyword to have a method that CAN'T be overriden) to C#'s default final methods… and I also tend to avoid the final keyword on methods and classes too.

So is there something to using interfaces that I am missing? Is there some hidden benefit of using an interface when you have 1 version of a class and no immediate need to create an interface?

Answer 1

A big headache with interfaces in java and C# is that they give you so few options to evolve your contract. E.g.:

interface ILogSink {
  Log(DateTime timestamp, string message);
}

If you have a lot of different clients that all implement this interface you cannot change it without breaking their implementation. If you need to change it in the next version, you end up with something like:

interface ILogSinkVersion2 {
  Log(DateTime timestamp, string message, CultureInfo culture);
}

If you use a base class on the other hand, you can start out with:

class LogSink {
  void Log(DateTime timestamp, string message, CultureInfo culture);
}

And evolve it to:

class LogSink {
  [Obsolete("Please Log(DateTime, string, CultureInfo)")]
  virtual void Log(DateTime timestamp, string message) {
  }

  virtual void Log(DateTime timestamp, string message, CultureInfo culture) {
    // Call old method for old implementations:
    Log(timestamp, message);
  }
}

This way you can evolve your code without forcing every implementation of the contract to consume your changes immediately.

Answer 2

Well on a recent project, I took a plunge and used interfaces heavily. By that I mean that almost all the classes in the project implement at least one interface. Some implement 2 or more. But also the number of interfaces is far lower than the number of classes.

The possibilities of this have shocked my socks off!

Allow me to give an example. Two of the interfaces are Provider and Receiver.

The first methods built were two classes one was a SymbolManager as a Receiver of market symbols. The other was a FileProvider as a Provider which reading financial data from a file and passes it to the SymbolManager. At first it felt cumbersome putting the methods both in the SymbolManager and the Receiver interface. Same fr FileProvider.

But the next requirement was to have multiple SymbolManagers each for a different "symbol" which is a financial instrument.

And then requirement was to feed data to them from a single "provider" which was a data broker. Well the data broker feeds many symbols so they need to be multiplexed to the propery SymbolManagers.

So the ProviderService implements Provider and feeds data to multiple Receivers.

Next users need to send this data remotely across a network so now a ReceiverStub implements a Receiver and marchals the data across TCP/IP with a ProviderProxy receiving and passing to a Receiver.

Point is that more and more Receivers and Providers keep getting added AND it's very easy through configuration to connect them in various different ways.

I'm shocked at how often we keep coming up with more Provider and Receiver ideas.

The most power of all this, of course, is that when we add a new Provider or Receiver implementer, it can get connected to any other the other existing objects just by injecting into the other object WITHOUT changing the older objects code.

In fact, it helps me to think of Interfaces as an easy way to make software operate internally similar to a "plugin" architecture where you can add functionality to older code without changing the older code in any way.

It's nearly impossible to see the value of Interfaces until you get hit with a requirement later in a project or even after it's finished that you never accounted for when building it originally. If you made it loosely coupled you find it quick and easy to make the change usually. If not, it may be more painful and time consuming.

We have even taken this to a literal plugin architecture by allowing users to create their own implementers of interfaces that get dynamically loaded via reflection. In fact, the GUI dynamically finds all classes in their DLL that implement certain interfaces and let's them pick from the list.

Now that I've built "loosely-coupled", pluggable architecture using interfaces, I can't imagine working the old way. Sincerely, Wayne

Answer 3

I agree. C# uses interfaces to replace multiple inheritance. I don't really like it much but then Microsoft forget to call me when they were designing the language ;)

Answer 4

You asked:

What is so bad about having a mock that merely overrides some methods of the single implementation class?

The reason is simple: if you are to unit test something, it has to be done without interference of other classes' implementations. If you merely override a "production class", you could cause a situation where the test uses non-mock code - which means it could fail because of external influences (i.e. some other class' code).

Whether you agree to unit testing done this way or not is a different question - but this is why its necessary to have something more abstract than merely overriding a production class.

And again: mocking is useful when you want to be sure, during testing, that you know exactly what input you'll be getting from external influences without needing to know their implementation details. This is extremely useful, especially when the implementations of other classes can take a long time to complete (major calculations) or require specific external software to complete (Message queues, DBs, etc that might not be available for your unit-testing needs).

Answer 5

You're right, referring to an interface conveys less information than referring to a concrete class. But this is generally a good thing. It keeps code simpler, which is usually better. Code written against an interface is only concerned with what the interface provides, and so all the extra information about what implementation you're using is irrelevant. I usually find code easier to read if it doesn't contain irrelevant information.

To respond to the two things you don't like about interfaces:

1. This is a problem with modularity in general. The same thing happens when we decide to create a function somewhere instead of just writing the entire application inline within the main() method. This is a strange complaint. It seems you could use the same principle to complain about variables: e.g. you don't know what the value of a boolean variable will be at runtime, so how do you know whether to read the code in an if block?

2. Don't add a separate file for the interface and its implementation if it bothers you. Do this instead:

:

public interface Foo {

    public void bar();

    ... other methods
    public static class BasicImpl implements Foo {
        public void bar() { ... }
        ... other methods
    }
}

Answer 6

Sometimes I don't like having interfaces all around either, but quite frankly those two items you've mentioned are not real problems at all:

IDE don't show the impl

Use a decent IDE, IntellJ Idea does this pretty easy.

You probably would have the same problem using class inheritance anyway.

Which one the running implementation again?

Adds another file to the system

If you can still count or at least perceive the amount of files in your project, probably you don't need interfaces at all in first place.

Answer 7

I think that this question points out one of the issues (flaws?) with the object oriented paradigm. I know that when I started out with OOP, I would use inheretance for everything. I would use the template pattern a lot and while this created productivity gains in the short run it would make class hierarcy headaches in the long run. In short, when I used inheretance, I would see simplicity and productivity in the short run and complexity and problems in the long run. The standard argument for using Interfaces and Object Composition.

Because of this I have moved to Interfaces and Dependency Injection. Has this become my "golden hammer" solution? Maybe, at this point I cannot say for sure. It is working well so far. I do see that my objects are far less coupled, but the overall structure of my system is more complex and I find myself writing more lines of "glue" code to have my objects interact.

Perhaps this will be the issue that ushers in the next paradigm. Personally, I'm learning a functional language (Erlang) in the next year to see what other programming perspectives there are out there.

Answer 8

I agree. I've been struggling with this question for ages now, and was going to raise a similar stackoverflow question when I found this one.

I write a lot of Spring/Hibernate apps, and if conforming to the Spring/Hibernate standard way of structuring a web-app, the procedural flow is usually recommended to go from action class --> service class --> dao class, where the service and dao classes have interfaces. So when I want to add a simple getter to get a new object/list out of the database and into my action, I have to write:

  - ServiceInterface.getObject()
  - ServiceImplementation.getObject()
  - DAOInterface.getObject()
  - DAOImplementation.getObject()

That's four changes in four different classes to add a simple getter!

If there's only one implementation per interface, I find this overkill. I still do it to remain consistent with the norm, and to remain consistent to other code in the same app which does require interfaces, but I still find it overkill.

It's little wonder languages like ruby are so loved (by some).

Answer 9

I find that in most cases interfaces are seriously underused.

Using interfaces from the start allows you to divide behaviour and implementation. With complex applications this makes eraly programming abit more complex but long term programming becomes alot less complex.

Answer 10

When you are considering writing anything which is likely to be a shared resource across multiple projects, then in my opinion, you simply must use interfaces. I'll give you an example:

Where I work (in a financial firm), we have an API which allows tradable product information to be accessed from any application:

Product p = productService.lookup(ProductCodeType.TICKER, "MSFT");

A decision was made that Product should be a class as opposed to an interface. Unfortunately, this has come to be a millstone around our necks. Why? Because Product is not quite as simple a class as it was first supposed to be.

We have a number of implementations of the ProductService which offer various caching strategies, static or dynamic views of the product universe. But we cannot do some very useful things which we want to do with the Products themselves, for example, hydrating properties in a background thread, using proxies to collect statistics, eagerly fetch and hydrate their properties etc.

Had Product been an interface, we would have none of these restrictions. Interface is simply the mechanism the Java language designers used to "implement" the familiar design pattern.

Answer 11

I think you can overuse interfaces, however the reason for using them should be to decouple the components in a system. Even in small systems tight coupling between components is not a good thing (because customers always want more).

Tightly coupling an application to any database, file system or any other external resource will only tick you customer off when you give them some outlandish quote to change accessing a database to a webservice.

Answer 12

To be flexible, think "factories".

If you define and use factory methods for object creation, it doesn't matter whether you're using a class or interface to the callers.

Think about it for a minute...

Suppose you start with a class:

public class Foo {
  Foo() {...} // package-access
}

and define somewhere in the same package

public Foo createFoo() { return new Foo(); }

Users can write

Foo foo = SomeFactory.createFoo();

Later you decide it would be good to use an interface so you can have alternate implementations. So you change to

public interface Foo {...}
public class SomeFooImpl implements Foo {...}

and change the factory method

public Foo createFoo() { return new SomeFooImpl(); }

This allows you to "have your cake and eat it too". The factory methods are a wee bit extra overhead, but give you flexibility for later on down the pipe.

Ok, now the confession: I don't regularly do this, but I'm thinking about doing it more and more. Thought I'd throw the idea out there and see who it sticks to and starts digesting them until it grows into a big blob that only Steve McQueen can stop.

Answer 13

Use interfaces when you want to use dynamic proxies and aspect oriented programming, or runtime generated classes (mock objects is a particular example).

Adding interfaces is not breaking, so if your classes are not exposed outside it's ok to add them only when you'll really need it.

Answer 14

Another way to look at interface is to look at it from productivity point of view. And yes, it has something to do with mocking. It's far easier to distribute work among different parts of a project among multiple group members if you are purely dealing with contracts (interface). Or at least if your base class implementation is very thin, then you can use that. Otherwise, if you aren't using interface and mocking your own thin implementation to test, you are totally dependent on the actual code, and guess what, when the developer that is working on that part of the code changes it, check it in and it break your build and left for the day.... Overused, perhaps, but as with all things, there are always advantages and disadvantages, just choose your poison wisely.

Answer 15

The original edict to "code to interfaces" seems to come from the GOF "Design Patterns" book. The important thing to realize from this is the interface they are talking about is not the Interface keyword/concept as it is most often currently interpreted as. The interface as they are writing about is just the public interface as represented by some class be it abstract or otherwise.(Interface didn't exist yet when the book was published)

Overriding some methods to provide your mock or stub is as a valid option as implementing an Interface to do the same. The trade-offs of inheriting form the class you're going to mock or via extracting and implementing an Interface are up to the details of the particular implementation.

Answer 16

Some of your concern around Visual Studio not handling code navigation via base classes could be solved by using Resharper. I personally would not code against an Interface heavy solution without it.

Answer 17

Yes. There are a billion programmers out there who've been taught design patterns so now they have to make everything fit into one of those nice neat boxes. Code's no good unless it's complicated.

Answer 18

In C#, a lot of the concerns about encapsulating common use cases of interfaces and evolving interfaces by adding convenience methods can be addressed by (judicious) use of extension methods.

Answer 19

Read about the open closed principle. Depend upon abstractions, not details. If you're depending on a concrete class, you're depending on details and there's no opportunity to change just one of two or more coupled components, you must change them all.

You say "JUST TO ALLOW MOCKING" as if it's a bad thing and then say that there's no real benefit. The benefit is in the decoupled design that allows me to use, for example, an IoC container that may have AOP features or support runtime dynamic code-composition, etc. By following these design principles, my options are always wide open. Being able to mock and perform interaction testing is one benefit I get and it happens to prove out the fact that my abstractions are aligned correctly according to the correct interaction boundaries.

When the testing via mocks goes well, it's a canary in the mineshaft that tells me whether things are designed correctly. When the testing via mocks goes poorly, I have a problem and it's usually reflected in other areas of the application, too, not just the mocks (again with the canary analogy).

Sure, sometimes you may not ever have an alternate implementation of ISomeFoo in which case it might have been a waste for that particular component. But if you ever DO need to have an alternate implementation, going and changing those 50 references to concrete PetrolSomeFoo to concrete HydrogenSomeFoo will hurt really bad, especially if someone of the changes involve other applications or integration scenarios.

I totally do NOT follow you on the files-on-the-filesystem argument. That matters so little as to be a non-argument. If your design concerns number of files on the filesystem, you might have a problem :) Or, you know what, put the ISomeFoo inside the same file as your first concrete impl. There, 1 file.

Finally, your instinct that interfaces are smelly is not totally a bad one. But what is smelly is the statically-typed class-based languages like C#, Java, etc that require strong interfaces (instead of, say, duck typing) in order to obtain the necessary abstraction to pull of OCP.

If we had duck typing, you wouldn't need so many interfaces and this conversation would be moot.

Answer 20

The other reason for interfaces is when you want to offer maximum flexibility on implementation that is you don't want to force the implementor to inherit from a base. What if my class inherits from a different base? I am now forced to write a custom adapter that implements the particular base class being consumed rather than simply implementing a contract.

Answer 21

I wanted to post one final response after a little more thinking. I'm prepping for the barrage of down votes I might get with this.

I think this very issue shines a bright light on the issues that can arise with static typing. Notice I'm not saying strong typing, merely static. Really, all of this nonsense about interfaces is really just us TDD guys trying to be able to test each portion of our system in isolation. If we could duck type (signature based polymorphism) I guarantee you none of us would be rationalizing making those explicit interfaces.

What TDD aficionados like myself are saying is in the language I am using I need to use interfaces to get the level of decoupling I am after. I'm saying I need that decoupling to have an actual unit test, to verify 99% absolutely ;) that I have done my job. I would honestly rather just be able to use duck typing and only explicitly define an interface when I expect it to be of some use. One of the reasons I enjoy javascript is the ease with which I can create a mock object that looks and behaves like the real thing (as far as the injected class is concerned).

In closing allow me to summarize. I think the pain point isn't in either side's philosophy. One side is idealistic about how much decoupling they should be able to get and the other side is trying to deal with the practicality of applying such ideals in languages such as C# and Java. Both are good sides to be on. In the end, it comes down to understanding the limitations of your language and just making a judgement call on a case by case basis as to which side of the fence you'll choose to side with today.

Answer 22

I only use interfaces as a solution of last resort. I prefer abstract base classes over interfaces because it provides the ability to abstract base (common) code into one place. Additioanlly Visual Studio handles base classes better than interfaces.

That aside... The interface pattern is for providing reference to a related set of data items that can exist between non related data models (classes). I've often seen interfaces used on related classes instead of a base class (abstract or not) and it is one of my pet peeves...

Answer 23

To the original poster - I'm with you. But i'll qualify that:

• I love unit tests and TDD, because i can do my work without fluffing about with app servers. And unit tests are only effective long term if they're mocked
• I love being able to substitute implementations where its useful to do so (which isnt often, just a few main services in any project)

But, with those two qualifications in mind, interfaces are way abused especially in big J2EE projects. I once had to debug a problem where there were 15(!) interfaces, stubs and facades between the bit of code that called a function and the implementation of that function. And the unit tests still weren't mocked properly. Just awful.

Answer 24

Basic rule of thumb: If you only have a single class implementing an interface, and if you can't think of another possible implementation of the interface, you don't need an interface, at least not now. You can always refactor and add an interface later, if required.
I'd argue that you should not add interfaces because they are somehow required by your testing strategy. Unit tests are the most important tool developers have (in my opinion), but they should not force a particular design. Fix the test infrastructure if it forces interfaces on your design.

Answer 25

Interfaces are useful in order to add a level of abstraction early on in the design process. It will benefit the modularity of your code. If you have a big enough project (one that warrants using mocking) interfaces are useful, though for small projects this is most likely overkill. They can be used more than they need to be certainly, but if you take to heart the following guidelines you will know when to use inheritance and when to use an interface. Your code reusability and scalability will increase greatly when interfaces are used where appropriate!

The old explanation of when to inherit works nicely:

• Is a - inheritance

  Your class is a subclass of a more generalized class, e.g. HouseCat inherits from Feline because a house cat "is a" feline.

• Has a - member field

  A LittleGirl has a cat, so obviously she should not be a subclass to HouseCat (she is not a cat). It is best that she "has a" HouseCat member field.

  class LittleGirl
  {
      int age;
      string name;
      HouseCat pet;
  }
  

• Performs - interface

  Interfaces should be used when a class or group of classes all have similar functionality, but when there is no obvious line of inheritance. Think of them as a certificate that says "this object performs this functionality."

  For example, a HouseCat might inherit from Feline, but implement the ICanHasChesseburgers (or ICanHazChzbrgrsPlz) interface. That way you have a BurgerJoint class with a method public CheeseBurger Serve(ICanHasCHeeseburgers patron) and be able to pass either Humans or HouseCats to the Serve method in order to feed them a Cheeseburger.

  This is useful because HouseCat does not inherit from Person nor vice versa. However, they both perform acts involving CheeseBurgers.

~ William Riley-Land

Answer 26

Interfaces can be good for decoupling modules of your system that are at different levels of abstraction - for example, see the Separated Interface Pattern (http://martinfowler.com/eaaCatalog/separatedInterface.html). In this specific case, I can see there being value in splitting into interface and implementation, even if there is just one implementation.

For example, following Domain Driven Design principles, you try to have a separate, rich, entirely "business-focused" layer. This layer may still require access to objects that come ultimately from the database. By defining a "Repository" interface with operations defined purely in domain terms within the domain layer, and then having it implemented by a class in the infrastructure layer (which knows all the data access details), you eliminate the dependency of the domain on any infrastructure code (i.e. you could happily compile your domain layer without requiring the infrastructure code to be present).

However, I do agree that introducing interfaces just to support testing, or creating them as a matter of course for every class seems very wrong.

Answer 27

It seems to me that some of the difference in opinion here boils down to the issue of Test-Driven-Development. Personally, I am a great fan of TDD, but that is off-topic here, so let us skip that discussion.

The motto of TDD is Test First. You might rephrase that as Tests First. To get into the proper mindframe for TDD, you not only need to code your tests first, you should also make sure that you ensure that you think of tests as a first-order concern.

Once we have established tests as a first-order concern, the reason for the many interfaces becomes much more obvious. In Test-Driven projects many (almost all) responsibilities will have at least two implementations: the "real" implementation and the mock/test-double/fake-object. Since the "real" implementation and the test-double(s) should not share any code (otherwise you are not properly isolating your tests) it makes sense to have a interface rather than letting the test-double override all the public methods of the "real" implementation.

To summarize: Many commenters are arguing that interfaces are used incorrectly, when they are only used to facilitate mocking. But when you use a test-double - no matter if it is a autogenerated mock-object or a manually written fake - you will have created a second implementation of your contract. You might argue that the second implementation of the contract is of lower value than the "real" implementation, so that you should not allow it to influence the structure of your "real" code. But then you are actually taking issue with Test-Driven-Development, which is another (and larger) discussion.

Edit:

I love TDD, and it is patently false to try and claim an interface is needed for it. TDD just means testing first, not creating an interface for anything you use. Mike Stone

I did not claim that you need interfaces for TDD. I claimed that TDD frequently require you to create and use multiple independent implementations of the same contract: the "real" implementation and the test-doubles. My point was that this situation is exactly where using interfaces is appropriate.

Answer 28

I couldn't agree more. Interfaces are like the "getters and setters" of the type system. Cruft that gets added everywhere whether it's necessary or not.

The trouble with interfaces is that they encourage inheritance and impose a hard hierarchy which makes your code brittle. Multiple inheritance? You should be using less inheritance, not more. Composition will set you free (and allow you to make all your classes abstract or final).

The mocking excuse is a red herring. Use automated specification-based testing and let the machine worry about mocking. Also, if you can't create real instances of any classes for testing because their methods may have destructive side-effects or have hidden dependencies on the state of the outside world, then you have flexibility problems that testing to interfaces is only going to encourage you to ignore.

Answer 29

I would have added a comment....

For Eclipse, highlight the method and hit Ctrl-T, this will bring up the hierarchy of implementations for a method which will allow you to go to the implementation with a single click. This is especially useful with a Spring/Hibernate driving application where you want to skip all the proxies and reflection classes in debug mode.

On the broader topic of interfaces, I feel they're only needed when a factory of some sort is used, and preferably at component or application boundaries. A component that heavily uses interfaces internally and has a 1:1 interface:class ratio usually smacks of bad architecture or drinking the Spring koolaid (essentially the same thing). Adding an interface for the sole purpose of Mocking is injecting test code into your production code and should be avoided at all costs.

Lastly, you should note that you can extract interfaces out of a class with ease when needed with Eclipse (and probably most other major Java IDEs as well) although you might need to rename your file outside of Eclipse, refresh, and then do an extraction back to the original name. This process allows you to effectively rename the class without breaking all the links to it, which will now utilize the interface. You can also specify which methods you'd like to extract, which will quickly show you via compile time errors where you're referencing the implementation class directly.

Answer 30

I have rarely seen interfaces "over-used" in my experiences, but it is certaintly possible.

Knowing when to use:

• An interface
• Simple inheritence
• Abstract base class
• Interface AND an abstract base class
• Encapsulation/helper classes

are keys to good designs. You can't learn enough about this, and we can't talk enough about it. We can talk about the "fringe" cases (all 300 classes in this library have interfaces), but I think that's a waste of time. We already know that "creating interfaces just to support unit testing" (or any other "just to support.." phrases you can think of) is not the right answer.

Yet there are some simple rules (the "is-a" relationaship test comes to mind). There are also some obvious situations where interfaces are used (plug-in architectures, for example). I will offer this thought...

Most piles of code in a library (think about the 300 classes mentioned above) have some public-facing interface that is significantly less large than "the entire code", and normally less large than what the library needs to support itself. Presenting this as a series of interfaces is what you want to be thinking about. Designing these interfaces requires a different train of thought than the code design - you are thinking about the consumption of your code, not the implementation of it.

By including this thinking, and designing interfaces, you will most certaintly be rewarded in the later stages of development (assuming this is a reasonable large system with more than one developer).