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nowinandroid/docs/ArchitectureLearningJourney.md

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# Architecture Learning Journey
In this learning journey you will learn about the Now in Android app architecture: its layers, key classes and the interactions between them.
## Goals and requirements
The goals for the app architecture are:
* Follow the [official architecture guidance](https://developer.android.com/jetpack/guide) as closely as possible.
* Easy for developers to understand, nothing too experimental.
* Support multiple developers working on the same codebase.
* Facilitate local and instrumented tests, both on the developers machine and using Continuous Integration (CI).
* Minimize build times.
## Architecture overview
The app architecture has two layers: a [data layer](https://developer.android.com/jetpack/guide/data-layer) and [UI layer](https://developer.android.com/jetpack/guide/ui-layer) (a third, [the domain layer](https://developer.android.com/jetpack/guide/domain-layer), is currently in development).
<center>
<img src="images/architecture-1-overall.png" width="600px" alt="Diagram showing overall app architecture" />
</center>
The architecture follows a reactive programming model with [unidirectional data flow](https://developer.android.com/jetpack/guide/ui-layer#udf). With the data layer at the bottom, the key concepts are:
* Higher layers react to changes in lower layers.
* Events flow down.
* Data flows up.
The data flow is achieved using streams, implemented using [Kotlin Flows](https://developer.android.com/kotlin/flow).
### Example: Displaying news on the For You screen
When the app is first run it will attempt to load a list of news resources from a remote server (when the `staging` or `release` build variant is selected, `debug` builds will use local data). Once loaded, these are shown to the user based on the interests they choose.
The following diagram shows the events which occur and how data flows from the relevant objects to achieve this.
![Diagram showing how news resources are displayed on the For You screen](images/architecture-2-example.png "Diagram showing how news resources are displayed on the For You screen")
Here's what's happening in each step. The easiest way to find the associated code is to load the project into Android Studio and search for the text in the Code column (handy shortcut: tap SHIFT twice).
<table>
<tr>
<td><strong>Step</strong>
</td>
<td><strong>Description</strong>
</td>
<td><strong>Code </strong>
</td>
</tr>
<tr>
<td>1
</td>
<td>On app startup, a <a href="https://developer.android.com/topic/libraries/architecture/workmanager">WorkManager</a> job to sync all repositories is enqueued.
</td>
<td><code>SyncInitializer.create</code>
</td>
</tr>
<tr>
<td>2
</td>
<td>The initial news feed state is set to <code>Loading</code>, which causes the UI to show a loading spinner on the screen.
</td>
<td>Search for usages of <code>ForYouFeedState.Loading</code>
</td>
</tr>
<tr>
<td>3
</td>
<td>WorkManager executes the sync job which calls <code>OfflineFirstNewsRepository</code> to start synchronizing data with the remote data source.
</td>
<td><code>SyncWorker.doWork</code>
</td>
</tr>
<tr>
<td>4
</td>
<td><code>OfflineFirstNewsRepository</code> calls <code>RetrofitNiaNetwork</code> to execute the actual API request using <a href="https://square.github.io/retrofit/">Retrofit</a>.
</td>
<td><code>OfflineFirstNewsRepository.syncWith</code>
</td>
</tr>
<tr>
<td>5
</td>
<td><code>RetrofitNiaNetwork</code> calls the REST API on the remote server.
</td>
<td><code>RetrofitNiaNetwork.getNewsResources</code>
</td>
</tr>
<tr>
<td>6
</td>
<td><code>RetrofitNiaNetwork</code> receives the network response from the remote server.
</td>
<td><code>RetrofitNiaNetwork.getNewsResources</code>
</td>
</tr>
<tr>
<td>7
</td>
<td><code>OfflineFirstNewsRepository</code> syncs the remote data with <code>NewsResourceDao</code> by inserting, updating or deleting data in a local <a href="https://developer.android.com/training/data-storage/room">Room database</a>.
</td>
<td><code>OfflineFirstNewsRepository.syncWith</code>
</td>
</tr>
<tr>
<td>8
</td>
<td>When data changes in <code>NewsResourceDao</code> it is emitted into the news resources data stream (which is a <a href="https://developer.android.com/kotlin/flow">Flow</a>).
</td>
<td><code>NewsResourceDao.getNewsResourcesStream</code>
</td>
</tr>
<tr>
<td>9
</td>
<td><code>OfflineFirstNewsRepository</code> acts as an <a href="https://developer.android.com/kotlin/flow#modify">intermediate operator</a> on this stream, transforming the incoming <code>PopulatedNewsResource</code> (a database model, internal to the data layer) to the public <code>NewsResource</code> model which is consumed by other layers.
</td>
<td><code>OfflineFirstNewsRepository.getNewsResourcesStream</code>
</td>
</tr>
<tr>
<td>10
</td>
<td><code>When ForYouViewModel</code> receives the news resources it updates the feed state to <code>Success</code>. <code>ForYouScreen</code> then uses the news resources in the state to render the screen.
<p>
The screen shows the newly retrieved news resources (as long as the user has chosen at least one topic or author).
</td>
<td>Search for instances of <code>ForYouFeedState.Success</code>
</td>
</tr>
</table>
## Data layer
The data layer is implemented as an offline-first source of app data and business logic. It is the source of truth for all data in the app.
![Diagram showing the data layer architecture](images/architecture-3-data-layer.png "Diagram showing the data layer architecture")
Each repository has its own models. For example, the `TopicsRepository` has a `Topic` model and the `NewsRepository` has a `NewsResource` model.
Repositories are the public API for other layers, they provide the _only_ way to access the app data. The repositories typically offer one or more methods for reading and writing data.
### Reading data
Data is exposed as data streams. This means each client of the repository must be prepared to react to data changes. Data is not exposed as a snapshot (e.g. `getModel`) because there's no guarantee that it will still be valid by the time it is used.
Reads are performed from local storage as the source of truth, therefore errors are not expected when reading from `Repository` instances. However, errors may occur when trying to reconcile data in local storage with remote sources. For more on error reconciliation, check the data synchronization section below.
_Example: Read a list of authors_
A list of Authors can be obtained by subscribing to `AuthorsRepository::getAuthorsStream` flow which emits `List<Authors>`.
Whenever the list of authors changes (for example, when a new author is added), the updated `List<Author>` is emitted into the stream.
### Writing data
To write data, the repository provides suspend functions. It is up to the caller to ensure that their execution is suitably scoped.
_Example: Follow a topic _
Simply call `TopicsRepository.setFollowedTopicId` with the ID of the topic which the user wishes to follow.
### Data sources
A repository may depend on one or more data sources. For example, the `OfflineFirstTopicsRepository` depends on the following data sources:
<table>
<tr>
<td><strong>Name</strong>
</td>
<td><strong>Backed by</strong>
</td>
<td><strong>Purpose</strong>
</td>
</tr>
<tr>
<td>TopicsDao
</td>
<td><a href="https://developer.android.com/training/data-storage/room">Room/SQLite</a>
</td>
<td>Persistent relational data associated with Topics
</td>
</tr>
<tr>
<td>NiaPreferences
</td>
<td><a href="https://developer.android.com/topic/libraries/architecture/datastore">Proto DataStore</a>
</td>
<td>Persistent unstructured data associated with user preferences, specifically which Topics the user is interested in. This is defined and modeled in a .proto file, using the protobuf syntax.
</td>
</tr>
<tr>
<td>NiANetwork
</td>
<td>Remote API accessed using Retrofit
</td>
<td>Data for topics, provided through REST API endpoints as JSON.
</td>
</tr>
</table>
### Data synchronization
Repositories are responsible for reconciling data in local storage with remote sources. Once data is obtained from a remote data source it is immediately written to local storage. The updated data is emitted from local storage (Room) into the relevant data stream and received by any listening clients.
This approach ensures that the read and write concerns of the app are separate and do not interfere with each other.
In the case of errors during data synchronization, an exponential backoff strategy is employed. This is delegated to `WorkManager` via the `SyncWorker`, an implementation of the `Synchronizer` interface.
See the `OfflineFirstNewsRepository.syncWith` for an example of data synchronization.
## UI Layer
The [UI layer](https://developer.android.com/topic/architecture/ui-layer) comprises:
* UI elements built using [Jetpack Compose](https://developer.android.com/jetpack/compose)
* [Android ViewModels](https://developer.android.com/topic/libraries/architecture/viewmodel)
The ViewModels receive streams of data from repositories and transform them into UI state. The UI elements reflect this state, and provide ways for the user to interact with the app. These interactions are passed as events to the view model where they are processed.
![Diagram showing the UI layer architecture](images/architecture-4-ui-layer.png "Diagram showing the UI layer architecture")
### Modeling UI state
UI state is modeled as a sealed hierarchy using interfaces and immutable data classes. State objects are only ever emitted through the transform of data streams. This approach ensures that:
* the UI state always represents the underlying app data - the app data is the source-of-truth.
* the UI elements handle all possible states.
**Example: News feed on For You screen**
The feed (a list) of news resources on the For You screen is modeled using `ForYouFeedState`. This is a sealed interface which creates a hierarchy of two possible states:
* `Loading` indicates that the data is loading
* `Success` indicates that the data was loaded successfully. The Success state contains the list of news resources.
The `feedState` is passed to the `ForYouScreen` composable, which handles both of these states.
### Transforming streams into UI state
View models receive streams of data as cold [flows](https://kotlin.github.io/kotlinx.coroutines/kotlinx-coroutines-core/kotlinx.coroutines.flow/-flow/index.html) from one or more repositories. These are [combined](https://kotlin.github.io/kotlinx.coroutines/kotlinx-coroutines-core/kotlinx.coroutines.flow/combine.html) together to produce a single flow of UI state. This single flow is then converted to a hot flow using [stateIn](https://kotlin.github.io/kotlinx.coroutines/kotlinx-coroutines-core/kotlinx.coroutines.flow/state-in.html). The conversion to a state flow enables UI elements to read the last known state from the flow.
**Example: Displaying followed topics and authors**
The `FollowingViewModel` exposes `uiState` as a `StateFlow<FollowingUiState>`. This hot flow is created by combining four data streams:
* List of authors (getAuthorsStream)
* List of author IDs which the current user is following
* List of topics
* List of topic IDs which the current user is following
The list of `Author`s is mapped to a new list of `FollowableAuthor`s. `FollowableAuthor` is a wrapper for `Author` which also indicates whether the current user is following that author. The same transformation is applied for the list of `Topic`s.
The two new lists are used to create a `FollowingUiState.Interests` state which is exposed to the UI.
### Processing user interactions
User actions are communicated from UI elements to view models using regular method invocations. These methods are passed to the UI elements as lambda expressions.
**Example: Following a topic**
The `FollowingScreen` takes a lambda expression named `followTopic` which is supplied from `FollowingViewModel.followTopic`. Each time the user taps on a topic to follow this method is called. The view model then processes this action by informing the topics repository.
## Further reading
[Guide to app architecture](https://developer.android.com/topic/architecture)
[Jetpack Compose](https://developer.android.com/jetpack/compose)