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# Modularization learning journey
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In this learning journey you will learn about modularization, and the modularization strategy used
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to create the modules in the Now in Android app.
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## Overview
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Modularization is the practice of breaking the concept of a monolithic, one-module codebase into
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loosely coupled, self contained modules.
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### Benefits of modularization
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This offers many benefits, including:
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**Scalability** - In a tightly coupled codebase, a single change can trigger a cascade of
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alterations. A properly modularized project will embrace
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the [separation of concerns](https://en.wikipedia.org/wiki/Separation_of_concerns) principle. This
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in turn empowers the contributors with more autonomy while also enforcing architectural patterns.
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**Enabling work in parallel** - Modularization helps decrease version control conflicts and enables
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more efficient work in parallel for developers in larger teams.
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**Ownership** - A module can have a dedicated owner who is responsible for maintaining the code and
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tests, fixing bugs, and reviewing changes.
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**Encapsulation** - Isolated code is easier to read, understand, test and maintain.
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**Reduced build time** - Leveraging Gradle’s parallel and incremental build can reduce build times.
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**Dynamic delivery** - Modularization is a requirement
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for [Play Feature Delivery](https://developer.android.com/guide/playcore/feature-delivery) which
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allows certain features of your app to be delivered conditionally or downloaded on demand.
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**Reusability** - Proper modularization enables opportunities for code sharing and building multiple
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apps, across different platforms, from the same foundation.
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### Modularization pitfalls
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However, modularization is a pattern that can be misused, and there are some gotchas to be aware of
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when modularizing an app:
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**Too many modules** - each module has an overhead that comes in the form of increased complexity of
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the build configuration. This can cause Gradle sync times to increase, and incurs an ongoing
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maintenance cost. In addition, adding more modules increases the complexity of the project’s Gradle
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setup, when compared to a single monolithic module. This can be mitigated by making use of
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convention plugins, to extract reusable and composable build configuration into type-safe Kotlin
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code. In the Now in Android app, these convention plugins can be found in
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the [`build-logic` folder](https://github.com/android/nowinandroid/tree/main/build-logic).
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**Not enough modules** - conversely if your modules are few, large and tightly coupled, you end up
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with yet another monolith. This means you lose some benefits of modularization. If your module is
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bloated and has no single, well defined purpose, you should consider splitting it.
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**Too complex** - there is no silver bullet here. In fact it doesn’t always make sense to modularize
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your project. A dominating factor is the size and relative complexity of the codebase. If your
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project is not expected to grow beyond a certain threshold, the scalability and build time gains
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won’t apply.
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## Modularization strategy
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It’s important to note that there is no single modularization strategy that fits all projects.
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However, there are general guidelines that can be followed to ensure you maximize its benefits and
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minimize its downsides.
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A barebone module is simply a directory with a Gradle build script inside. Usually though, a module
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will consist of one or more source sets and possibly a collection of resources or assets. Modules
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can be built and tested independently. Due to Gradle's flexibility there are few constraints as to
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how you can organize your project. In general, you should strive for low coupling and high cohesion.
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* **Low coupling** - Modules should be as independent as possible from one another, so that changes
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to one module have zero or minimal impact on other modules. They should not possess knowledge of
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the inner workings of other modules.
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* **High cohesion** - A module should comprise a collection of code that acts as a system. It should
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have clearly defined responsibilities and stay within boundaries of certain domain knowledge. For
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example,
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the [`core:network` module](https://github.com/android/nowinandroid/tree/main/core/network) in Now
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in Android is responsible for making network requests, handling responses from a remote data
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source, and supplying data to other modules.
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## Types of modules in Now in Android
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![Diagram showing types of modules and their dependencies in Now in Android](images/modularization-graph.drawio.png "Diagram showing types of modules and their dependencies in Now in Android")
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**Top tip**: A module graph (shown above) can be useful during modularization planning for
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visualizing dependencies between modules.
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The Now in Android app contains the following types of modules:
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* The `app` module - contains app level and scaffolding classes that bind the rest of the codebase,
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such as `MainActivity`, `NiaApp` and app-level controlled navigation. A good example of this is
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the navigation setup through `NiaNavHost` and the bottom navigation bar setup
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through `TopLevelDestination`. The `app` module depends on all `feature` modules and
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required `core` modules.
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* `feature:` modules - feature specific modules which are scoped to handle a single responsibility
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in the app. These modules can be reused by any app, including test or other flavoured apps, when
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needed, while still keeping it separated and isolated. If a class is needed only by one `feature`
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module, it should remain within that module. If not, it should be extracted into an
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appropriate `core` module. A `feature` module should have no dependencies on other feature
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modules. They only depend on the `core` modules that they require.
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* `core:` modules - common library modules containing auxiliary code and specific dependencies that
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need to be shared between other modules in the app. These modules can depend on other core
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modules, but they shouldn’t depend on feature nor app modules.
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* Miscellaneous modules - such as `sync`, `benchmark` and `test` modules, as well
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as `app-nia-catalog` - a catalog app for displaying our design system quickly.
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## Modules
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Using the above modularization strategy, the Now in Android app has the following modules:
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<table>
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<tr>
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<td><strong>Name</strong>
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</td>
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<td><strong>Responsibilities</strong>
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</td>
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<td><strong>Key classes and good examples</strong>
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</td>
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</tr>
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<tr>
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<td><code>app</code>
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</td>
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<td>Brings everything together required for the app to function correctly. This includes UI scaffolding and navigation.
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</td>
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<td><code>NiaApp, MainActivity</code><br>
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App-level controlled navigation via <code>NiaNavHost, NiaAppState, TopLevelDestination</code>
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</td>
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</tr>
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<tr>
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<td><code>feature:1,</code><br>
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<code>feature:2</code><br>
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...
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</td>
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<td>Functionality associated with a specific feature or user journey. Typically contains UI components and ViewModels which read data from other modules.<br>
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Examples include:<br>
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<ul>
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<li><a href="https://github.com/android/nowinandroid/tree/main/feature/topic"><code>feature:topic</code></a> displays information about a topic on the TopicScreen.</li>
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<li><a href="https://github.com/android/nowinandroid/tree/main/feature/foryou"><code>feature:foryou</code></a> which displays the user's news feed, and onboarding during first run, on the For You screen.</li>
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</ul>
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</td>
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<td><code>TopicScreen</code><br>
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<code>TopicViewModel</code>
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</td>
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</tr>
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<tr>
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<td><code>core:data</code>
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</td>
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<td>Fetching app data from multiple sources, shared by different features.
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</td>
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<td><code>TopicsRepository</code><br>
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</td>
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</tr>
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<tr>
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<td><code>core:ui</code>
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</td>
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<td>UI components, composables and resources, such as icons, used by different features.
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</td>
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<td><code>NiaIcons</code><br>
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<code>NewsResourceCardExpanded</code>
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</td>
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</tr>
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<tr>
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<td><code>core:common</code>
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</td>
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<td>Common classes shared between modules.
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</td>
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<td><code>NiaDispatchers</code><br>
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<code>Result</code>
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</td>
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</tr>
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<tr>
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<td><code>core:network</code>
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</td>
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<td>Making network requests and handling responses from a remote data source.
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</td>
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<td><code>RetrofitNiaNetworkApi</code>
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</td>
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</tr>
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<tr>
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<td><code>core:testing</code>
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</td>
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<td>Testing dependencies, repositories and util classes.
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</td>
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<td><code>NiaTestRunner</code><br>
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<code>TestDispatcherRule</code>
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</td>
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</tr>
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<tr>
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<td><code>core:datastore</code>
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</td>
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<td>Storing persistent data using DataStore.
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</td>
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<td><code>NiaPreferences</code><br>
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<code>UserPreferencesSerializer</code>
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</td>
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</tr>
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<tr>
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<td><code>core:database</code>
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</td>
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<td>Local database storage using Room.
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</td>
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<td><code>NiaDatabase</code><br>
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<code>DatabaseMigrations</code><br>
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<code>Dao</code> classes
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</td>
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</tr>
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<tr>
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<td><code>core:model</code>
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</td>
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<td>Model classes used throughout the app.
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</td>
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<td><code>Topic</code><br>
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<code>Episode</code><br>
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<code>NewsResource</code>
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</td>
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</tr>
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</table>
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## Modularization in Now in Android
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Our modularization approach was defined taking into account the “Now in Android” project roadmap, upcoming work and new features. Additionally, our aim this time around was to find the right balance between overmodularizing a relatively small app and using this opportunity to showcase a modularization pattern fit for a much larger codebase, closer to real world apps in production environments.
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This approach was discussed with the Android community, and evolved taking their feedback into account. With modularization however, there isn’t one right answer that makes all others wrong. Ultimately, there are many ways and approaches to modularizing an app and rarely does one approach fit all purposes, codebases and team preferences. This is why planning beforehand and taking into account all goals, problems you’re trying to solve, future work and predicting potential stepping stones are all crucial steps for defining the best fit structure under your own, unique circumstances. Developers can benefit from a brainstorming session to draw out a graph of modules and dependencies to visualize and plan this better.
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Our approach is such an example - we don’t expect it to be an unchangeable structure applicable to all cases, and in fact, it could evolve and change in the future. It’s a general guideline we found to be the best fit for our project and offer it as one example you can further modify, expand and build on top of. One way of doing this would be to increase the granularity of the codebase even more. Granularity is the extent to which your codebase is composed of modules. If your data layer is small, it’s fine to keep it in a single module. But once the number of repositories and data sources starts to grow, it might be worth considering splitting them into separate modules.
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We are also always open to your constructive feedback - learning from the community and exchanging ideas is one of the key elements to improving our guidance.
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