Awesome
Molecule
Build a StateFlow
or Flow
stream using Jetpack Compose1.
fun CoroutineScope.launchCounter(): StateFlow<Int> = launchMolecule(mode = ContextClock) {
var count by remember { mutableStateOf(0) }
LaunchedEffect(Unit) {
while (true) {
delay(1_000)
count++
}
}
count
}
Introduction
Jetpack Compose UI makes it easy to build declarative UI with logic.
val userFlow = db.userObservable()
val balanceFlow = db.balanceObservable()
@Composable
fun Profile() {
val user by userFlow.subscribeAsState(null)
val balance by balanceFlow.subscribeAsState(0L)
if (user == null) {
Text("Loading…")
} else {
Text("${user.name} - $balance")
}
}
Unfortunately, we are mixing business logic with display logic which makes testing harder than if it were separated. The display layer is also interacting directly with the storage layer which creates undesirable coupling. Additionally, if we want to power a different display with the same logic (potentially on another platform) we cannot.
Extracting the business logic to a presenter-like object fixes these three things.
In Cash App our presenter objects traditionally expose a single stream of display models through Kotlin coroutine's Flow
or RxJava Observable
.
sealed interface ProfileModel {
object Loading : ProfileModel
data class Data(
val name: String,
val balance: Long,
) : ProfileModel
}
class ProfilePresenter(
private val db: Db,
) {
fun transform(): Flow<ProfileModel> {
return combine(
db.users().onStart { emit(null) },
db.balances().onStart { emit(0L) },
) { user, balance ->
if (user == null) {
Loading
} else {
Data(user.name, balance)
}
}
}
}
This code is okay, but the ceremony of combining reactive streams will scale non-linearly. This means the more sources of data which are used and the more complex the logic the harder to understand the reactive code becomes.
Despite emitting the Loading
state synchronously, Compose UI requires an initial value be specified for all Flow
or Observable
usage.
This is a layering violation as the view layer is not in the position to dictate a reasonable default since the presenter layer controls the model object.
Molecule lets us fix both of these problems.
Our presenter can return a StateFlow<ProfileModel>
whose initial state can be read synchronously at the view layer by Compose UI.
And by using Compose we also can build our model objects using imperative code built on features of the Kotlin language rather than reactive code consisting of RxJava library APIs.
@Composable
fun ProfilePresenter(
userFlow: Flow<User>,
balanceFlow: Flow<Long>,
): ProfileModel {
val user by userFlow.collectAsState(null)
val balance by balanceFlow.collectAsState(0L)
return if (user == null) {
Loading
} else {
Data(user.name, balance)
}
}
This model-producing composable function can be run with launchMolecule
.
val userFlow = db.users()
val balanceFlow = db.balances()
val models: StateFlow<ProfileModel> = scope.launchMolecule(mode = ContextClock) {
ProfilePresenter(userFlow, balanceFlow)
}
A coroutine that runs ProfilePresenter
and shares its output with the StateFlow
is launched into the provided CoroutineScope
.
At the view-layer, consuming the StateFlow
of our model objects becomes trivial.
@Composable
fun Profile(models: StateFlow<ProfileModel>) {
val model by models.collectAsState()
when (model) {
is Loading -> Text("Loading…")
is Data -> Text("${model.name} - ${model.balance}")
}
}
For more information see the launchMolecule
documentation.
Flow
In addition to StateFlow
s, Molecule can create regular Flow
s.
Here is the presenter example updated to use a regular Flow
:
val userFlow = db.users()
val balanceFlow = db.balances()
val models: Flow<ProfileModel> = moleculeFlow(mode = Immediate) {
ProfilePresenter(userFlow, balanceFlow)
}
And the counter example:
fun counter(): Flow<Int> = moleculeFlow(mode = Immediate) {
var count by remember { mutableStateOf(0) }
LaunchedEffect(Unit) {
while (true) {
delay(1_000)
count++
}
}
count
}
For more information see the moleculeFlow
documentation.
Usage
Molecule is a library for Compose, and it relies on JetBrains' Kotlin Compose plugin to be present for use.
Any module which wants to call launchMolecule
or define @Composable
functions for use with Molecule must have this plugin applied.
For more information, see the JetBrains Compose compiler documentation.
Molecule itself can then be added like any other dependency:
dependencies {
implementation("app.cash.molecule:molecule-runtime:2.0.0")
}
<details>
<summary>Snapshots of the development version are available in Sonatype's snapshots repository.</summary>
<p>
repositories {
mavenCentral()
maven {
url "https://oss.sonatype.org/content/repositories/snapshots/"
}
}
dependencies {
implementation("app.cash.molecule:molecule-runtime:2.1.0-SNAPSHOT")
}
</p>
</details>
Frame Clock
Whenever Jetpack Compose recomposes, it always waits for the next frame before beginning its work.
It is dependent on a MonotonicFrameClock
in its CoroutineContext
to know when a new frame is sent.
Molecule is just Jetpack Compose under the hood, so it also requires a frame clock: values won't be produced until a frame is sent and recomposition occurs.
Unlike Jetpack Compose, however, Molecule will sometimes be run in circumstances that do not provide a MonotonicFrameClock
.
So all Molecule APIs require you to specify your preferred clock behavior:
RecompositionMode.ContextClock
behaves like Jetpack Compose: it will fish theMonotonicFrameClock
out of the callingcoroutineContext
and use it for recomposition. If there is noMonotonicFrameClock
, it will throw an exception.ContextClock
is useful with Android'sAndroidUiDispatcher.Main
.Main
has a built-inMonotonicFrameClock
that is synchronized with the frame rate of the device. So a Molecule run onMain
withContextClock
will run in lock step with the frame rate, too. Nifty! You can also provide your ownBroadcastFrameClock
to implement your own frame rate.RecompositionMode.Immediate
will construct an immediate clock. This clock will produce a frame whenever the enclosing flow is ready to emit an item. (This is always the case for aStateFlow
.)Immediate
can be used where no clock is available at all without any additional wiring. It may be used for unit testing, or for running molecules off the main thread.
Testing
Use moleculeFlow(mode = Immediate)
and test using Turbine. Your moleculeFlow
will run just like any other flow does in Turbine.
@Test fun counter() = runTest {
moleculeFlow(RecompositionMode.Immediate) {
Counter()
}.test {
assertEquals(0, awaitItem())
assertEquals(1, awaitItem())
assertEquals(2, awaitItem())
cancel()
}
}
If you're unit testing Molecule on the JVM in an Android module, please set below in your project's AGP config.
android {
...
testOptions {
unitTests.returnDefaultValues = true
}
...
}
License
Copyright 2021 Square, Inc.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
Footnotes
-
…and NOT Jetpack Compose UI! ↩