Kotlin Bloc is a Multiplatform UI framework combining the best of MVI, MVVM and SAM. It's
- simple: designed from the ground up for simplicity with a super concise syntax
- adaptable: supports different programming styles (MVI, MVVM+, Redux...)
- predictable: write reactive applications that behave consistently and are easy to debug and test
- composable: grows with the complexity of the app and the size of the team
- The
Bloc(Business Logic Component) encapsulates the application's business logic. It receivesAction(s)from the view, processes those actions and outputsProposalsand optionallySideEffect(s). - The
BlocStateholds the component'sState. It's separate from the actualBlocto support different scenarios like:- share state between business logic components
- persist state (database, network)
- use a global state container like Redux
Note, this readme offers a quick overview of the framework. For more in-depth information consult:
dependencies {
// the core library
implementation("com.1gravity:bloc-core:0.11.0")
// add to use the framework together with Redux
implementation("com.1gravity:bloc-redux:0.11.0")
// useful extensions for Android and Jetpack/JetBrains Compose
implementation("com.1gravity:bloc-compose:0.11.0")
}The "Hello World" example of UI frameworks is the counter app. Creating the "business logic" part of such an app is very simple with Kotlin Bloc:
fun bloc(context: BlocContext) = bloc<Int, Int>(context, 1) {
reduce { state + action }
}The view part is very simple too.
class CounterActivity : AppCompatActivity() {
// create or retrieve the lifecycle aware Bloc
private val bloc by getOrCreate { bloc(it) }setContent {
// observe the Bloc state
val state by bloc.observeState()
// updates on state / count changes
Text("Counter: $state")
// emit events / actions to update the state / count
Button(onClick = { bloc.send(1) }, content = { Text("Increment") })
Button(onClick = { bloc.send(-1) }, content = { Text("Decrement") })
}Note: the Bloc is lifecycle aware and will survive configuration changes (no ViewModel needed...).
On iOS there's a bit more boilerplate code (BlocHolder and BlocObserver are omitted here) but it's still pretty "lean":
// iOS
struct CounterView: View {
// create the lifecycle aware Bloc
private let holder = BlocHolder { CounterKt.bloc(context: $0) }
@ObservedObject
private var model: BlocObserver<KotlinInt, KotlinInt, KotlinUnit>
init() {
// observe the Bloc state
model = BlocObserver(holder.value)
}
var body: some View {
return VStack() {
// updates on state / count changes
Text("Counter \(model.value)")
// emit events / actions to update the state / count
Button(
action: { holder.value.send(value: 1) },
label: { Text("Increment") }
)
Button(
action: { holder.value.send(value: -1) },
label: { Text("Decrement") }
)Kotlin Bloc supports different MVI/MVVM "styles". The example above shows one of many ways to implement the counter app. In the official documentation you'll find more example to demonstrate:
- single-action + catch-all reducer
- single-action and catch-all side effects
- reducer with side effects
- thunks
- initializer
- Redux and MVVM+ style
Copyright 2022 Emanuel Moecklin
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.