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I'm doing a small research of mobile platforms and I would like to know which design patterns are used in Android?

e.g. in iOS Model-view-controller is very widely used together with delegation and other patterns.

What patterns and where in particular does Android use?


I'm not asking for design patterns used deep in kernel, dalvik and so on, but about patterns which an application developer will meet while developing an application.

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Given the Android platform incorporates a Linux kernel, it's far too big a suite of software to answer this question other than 'all of the patterns named so far, and probably a few new ones if you look carefully enough' –  Pete Kirkham Feb 6 '11 at 21:25
@Pete, Ok, probably you are right, but at the same time I'm not going so deep as kernel, I'm interested in surface of application, e.g. in iOS UIViewController implemented using MVC (UIViewController is a controller and its root UIView is view), UIApplication uses delegation having Application Delegate as delegate and so on... –  Burjua Feb 6 '11 at 21:36
I think you should really learn Android from the bottom up and not try to "port" you knowledge from iOS to Android. There are a lot of great books out there. Apress makes a bunch. If you understand the app and service lifecycle in android you should be able to get how to desing apps properly. –  blindstuff Feb 9 '11 at 14:05

7 Answers 7

up vote 149 down vote accepted

I tried using both the Model-View-Control and Model-View-Presenter design patterns for doing android development. My findings are Model-View-Control works fine, but there is a couple of "issues". It all comes down to how you perceive android Activity class. Is it a controller, or is it a view?

The actual Activity class doesn't extend android's View class, but it does, however, handle displaying a window to the user and also handle the events of that window (onCreate, onPause etc).

This means, that when you are using a MVC pattern, your controller will actually be a pseudo View-Controller. Since it is handling displaying a window to the user, with the additional view components you have added to it with setContentView, and also handling events for atleast the various activity life cycle events.

In MVC, the controller is supposed to be the main entry point. Which is a bit debatable if this is the case when applying it to android development, since the activity is the natural entry point of most applications.

Because of this, i personall find that the Model-View-Presenter pattern is a perfect fit for android development. Since the Views role in this pattern are:

  • serving as a entry point
  • rendering components
  • routing user events to the presenter

This allows you to implement your model like so:

View - this contains your UI components, and handles events for them.

Presenter - this will handle communication between your model and your view, look at it as a gateway to your model. Meaning, if you have a complex domain model representing, God know what, and your view only needs a very small subset of this model, the presenters job is to query the model and then update the view. For example, if you have a model containing a paragraph of text, a headline and a word-count. But in a given view, you only need to display the headline in the view. Then the presenter will read the data needed from the model, and update the view accordingly.

Model - this should basically be your full domain model, hopefully it will help making your domain model more "tight" as well, since you wont need special methods to deal with cases as mentioned above.

By decoupling the model from the View all together (through use of the presenter), it also becomes much more intuitive to test your model. You can have unit test for your domain model, and unit test for your presenters.

Try it out, I personally find it a great fit for android development.

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Great answer! I have questions though: 1. Activity = View, did I get this right? 2. Would you implement the presenter as its own public class, or as an inner class of the Activity? Or a fragment (also inner class)? 3. Do you mean that transfer classes shall be used as instead of the actual model classes in the Activity (view)? –  manmal Oct 30 '11 at 15:24
1. Yes, I use them as views within the MVP pattern. 2. personally, I segment them into individual public classes, but this is a matter of taste I suppose :) 3. I explained this quite poorly, the sentence "forward the classes needed" is misleading. What I mean, is the presenter sits between the view and the model, it reads the model and then updates the view. I will update my answer to be a bit more clear :) –  JustDanyul Nov 5 '11 at 1:49
thanks for taking the time, I get it now :) –  manmal Nov 6 '11 at 13:12
excellent answer, thanks.. –  nawfal Jan 14 '13 at 19:55
I actually really love Android development because it is highly decoupled. How I use MVC: Use Activities purely for user IO, and use a local service for all of your processing. When the service wants to show something - broadcast it to your activities! I really hate it when other dev's put way too much processing in activities. –  Someone Somewhere Jan 28 '14 at 9:11

There are various patterns used in Android framework like:

  • Broadcast receiver uses Observer pattern
  • Remoter service invocation uses Proxy pattern
  • View and view group uses Composite pattern
  • Media framework uses Fascade pattern
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It looks like you are seeking for architectural patterns rather than design patterns.

Design patterns aim at describing a general "algorithm" that programmer might implement for handling a particular set of recurring software tasks. For example: in OOP, when there is a need to share one instance of an object between unrelated parts of the program, while ensuring that all these parts will get a reference to exactly the same object - Singleton design pattern might be employed.

Since Android applications (and most of AOSP) are written in Java, which is object-oriented, I think you'll have a hard time looking for a single OOP design pattern which is NOT used in Android.

Architectural patterns, on the other hand, do not address particular software tasks - they aim to provide templates for software organization based on the use cases of the software component in question. It sounds a bit complicated, but I hope an example will clarify: if some application will be used to fetch data from a remote server and present it to the user in a structured manner, then MVC might be a good candidate for consideration. Note that I said nothing about software tasks and program flow of the application - I just described it from user's point of view, and a candidate for an architectural pattern emerged.

Since you mentioned MVC in your question, I'd guess that architectural patterns is what you're looking for.

I tend to agree with @JustDanyul that MVP pattern is the most appropriate architectural pattern for Android, given the following conditions hold:

  1. Your application has an interactive user interface
  2. Your application has a persistent state which should be communicated to the UI
  3. Your application can live with a slight performance degradation

Example of applications not eligible for MVP:

  1. Application that shows current time: while there is definitely a UI in here, it is not interactive, therefore there is hardly need for separation between the UI part and the logic.
  2. Application that generates random color patterns - there is definitely no need for a model part in here, since nothing gets stored.
  3. Game with state of the art graphics and AI which is hardly distinguishable from a real human player - the computational overhead associated with "communication" between MVP components might be intolerable in this case.

But in practice, most of the applications out there fit nicely into MVP architectural pattern.


My favorite approach to MVP in android is:

  • Activities, Fragments and ListAdapters are MVP presenters.
  • MVP views implemented in standalone classes (which derive from Android's View if used with ListAdapters)
  • There is no trouble with implementing a model in Android. In fact, any persistent storage hidden behind ContentProvider is a good choice.

By the way, the reason why MVP fits better than MVC in Android, is the fact that Activities and Fragments are the best candidates for controllers/presenters, and that some aspects of interaction with models (e.g. LoaderManager) are strongly tied to them. Therefore, direct communication between MVC views and models in Android would be somewhat awkward.

Ready to use MVP template/tutorial for Android

I've written application that demonstrates one of the possible approaches to implementation of MVP in Android. This application can also serve as Android Studio template for new projects - just clone/fork it and start innovate.

You can get this MVP template/tutorial from here: https://github.com/techyourchance/android_mvc_template

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All these patterns, MVC/MVVM/MVP/Presentation Model, can be applied to android apps, but without a third party framework, it is not easy to get well-organized structure and clean code. MVVM is originated from PresentationModel. When we apply MVC/MVVM/Presentation Model to android app, what we really want is to have a clear structured project and more importantly easier for unit tests. At the moment, without an third party framework, you usually have lots of code(like addXXListener(), findViewById()...), which does not add any business value. What's more, you have to run android unit tests instead of normal JUnit tests, which take ages to run and make unit tests somewhat impractical. For these reasons, some years ago we started an open source project RoboBinding - A data-binding Presentation Model framework for the Android platform. RoboBinding helps you write UI code that is easier to read, test and maintain. RoboBinding removes the need of unneccessary code like addXXListener or so, and shifts UI logic to Presentation Model, which is a pojo and can be tested via normal JUnit tests. RoboBinding itself comes with more than 300 JUnit tests to ensure its quality.

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Android also uses ViewHolder Design pattern.

It's used to improve performance of ListView while scrolling it.

The ViewHolder design pattern enables you to access each list item view without the need for the look up, saving valuable processor cycles. Specifically, it avoids frequent call of findViewById() during ListView scrolling, and that will make it smooth.

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I would like to add a design pattern that has been applied in Android Framework. This is Half Sync Half Async pattern used in the Asynctask implementation. See my discussion at


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In the Notifications case, the NotificationCompat.Builder uses Decorator Pattern


mBuilder = new NotificationCompat.Builder(this)
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