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FRP (Functional Reactive Programming) framework for declarative-style programming for Android. 🚀 (compatible with Jetpack Compose)

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License: GPL v3 PRs welcome!

Ivy FRP

Ivy FRP is a Functional Reactive Programming framework for declarative-style programming for Android. 🚀

Minimalistic and light-weight implementation of the Ivy FRP Architecture.

Recommendation: Use it alongside Jetpack Compose.

⚠️ This library is created solely for educational purposes. If you want to follow along the tutorials refer to the Functional Reactive Programming articles on Toptal - Part 1 (theory) and Part 2 (demo). Do NOT use it in production!

Demo

Key Features

  • Function composition using then. (supporting suspend functions, `Action & FPAction)

  • FPAction: declaritive-style "use-case" which can be composed.

  • FRPViewModel: functional-reactive ViewModel implementation, see Ivy FRP Architecture .

  • @Composable FRP<State, Event>(){ UI() }: functional-reactive UI implementation in Jetpack Compose.

  • Res.Ok / Res.Err result type: monadic result type supporting success and error composition.

    • thenIfSuccess: calls the next function only on success (OK)
    • mapSuccess: maps only the success type if the result is OK
    • mapError: maps only the error type if the result is Err
  • (optional) NavigationRoot + Navigation: navigation component for Jetpack Compose

    • ⚠️ to use it with proper back handling you must override onBackPressed()

if you use Navigation:

//required only for "NavigationRoot" and "Navigation"
override fun onBackPressed() {
  if (!navigation.onBackPressed()) {
    super.onBackPressed()
  }
}

Imaginary Weather app ☁️☀️☔

TL;DR: You'll find the code of the entire weather app below. If you're already sold to use Ivy FRP => skip to Installation.

Data (boring)

data class Temperature(
  val value: Float,
  val unit: TemperatureUnit
)

enum class TemperatureUnit {
    CELSIUS, FAHRENHEIT
}

data class UserPreference(
    val temperatureUnit: TemperatureUnit
)

IO (boring)

data class WeatherResponse(
    val temperature: Temperature
)

interface WeatherService {
    @GET("/api/weather")
    suspend fun getWeather(): WeatherResponse
}

interface UserPreferenceService {
    @GET("/preference/temp-unit")
    suspend fun getTempUnit(): UserPreference

    @POST("/preference/temp-unit")
    suspend fun updateTempUnit(
        @Query("unit") temperatureUnit: TemperatureUnit
    )
}

Actions

ConvertTempAct.kt

class ConvertTempAct @Inject constructor() : FPAction<ConvertTempAct.Input, Temperature>() {

    override suspend fun Input.compose(): suspend () -> Temperature =
        this asParamTo ::convertValue then { convertedValue ->
            Temperature(convertedValue, toUnit)
        }

    private fun convertValue(input: Input): Float = with(input.temperature) {
        if (unit == input.toUnit) value else {
            when (input.toUnit) {
                TemperatureUnit.CELSIUS -> fahrenheitToCelsius(value)
                TemperatureUnit.FAHRENHEIT -> celsiusToFahrenheit(value)
            }
        }
    }

    //X°F = (Y°C × 9/5) + 32
    private fun celsiusToFahrenheit(celsius: Float): Float = (celsius * 9 / 5) + 32

    //X°C = (Y°F - 32) / (9/5)
    private fun fahrenheitToCelsius(fahrenheit: Float): Float = (fahrenheit - 32) / (9 / 5)

    data class Input(
        val temperature: Temperature,
        val toUnit: TemperatureUnit
    )
}

CurrentTempAct.kt

class CurrentTempAct @Inject constructor(
    private val weatherService: WeatherService,
    private val convertTempAct: ConvertTempAct
) : FPAction<TemperatureUnit, Res<String, Temperature>>() {
    override suspend fun TemperatureUnit.compose(): suspend () -> Res<String, Temperature> = tryOp(
        operation = weatherService::getWeather
    ) mapSuccess { response ->
        ConvertTempAct.Input(
            temperature = response.temperature,
            toUnit = this //TemperatureUnit
        )
    } mapSuccess convertTempAct mapError {
        "Failed to fetch weather: ${it.message}"
    }
}

UserPreferencesAct.kt

class UserPreferenceAct @Inject constructor(
    private val userPreferenceService: UserPreferenceService
) : FPAction<Unit, Res<String, UserPreference>>() {
    override suspend fun Unit.compose(): suspend () -> Res<String, UserPreference> = tryOp(
        operation = userPreferenceService::getTempUnit
    ) mapError {
        "Failed to fetch user's preference: ${it.message}"
    }
}

UpdateUserPreferencesAct.kt

class UpdateUserPreferenceAct @Inject constructor(
    private val userPreferenceService: UserPreferenceService
) : FPAction<TemperatureUnit, Res<String, Unit>>() {
    override suspend fun TemperatureUnit.compose(): suspend () -> Res<String, Unit> = tryOp(
        operation = this asParamTo userPreferenceService::updateTempUnit
    ) mapError {
        "Failed to update user preference: ${it.message}"
    }
}

ViewModel

WeatherState.kt

sealed class WeatherState {
    object Loading : WeatherState()

    data class Error(val errReason: String) : WeatherState()

    data class Success(
        val tempUnit: TemperatureUnit,
        val temp: Float
    ) : WeatherState()
}

WeatherEvent.kt

sealed class WeatherEvent {
    object LoadWeather : WeatherEvent()

    data class UpdateTempUnit(val unit: TemperatureUnit) : WeatherEvent()
}

WeatherViewModel.kt

@HiltViewModel
class WeatherViewModel @Inject constructor(
    private val userPreferenceAct: UserPreferenceAct,
    private val updateUserPreferenceAct: UpdateUserPreferenceAct,
    private val currentTempAct: CurrentTempAct,
) : FRPViewModel<WeatherState, WeatherEvent>() {
    override val _state: MutableStateFlow<WeatherState> = MutableStateFlow(WeatherState.Loading)

    override suspend fun handleEvent(event: WeatherEvent): suspend () -> WeatherState =
        when (event) {
            is WeatherEvent.LoadWeather -> loadWeather()
            is WeatherEvent.UpdateTempUnit -> updateTempUnit(event)
        }

    private suspend fun loadWeather(): suspend () -> WeatherState = suspend {
        updateState { WeatherState.Loading }
        Unit
    } then userPreferenceAct mapSuccess {
        it.temperatureUnit //loadTempFor() expects TemperatureUnit
    } then ::loadTempFor

    private suspend fun updateTempUnit(
        event: WeatherEvent.UpdateTempUnit
    ): suspend () -> WeatherState = suspend {
        updateState { WeatherState.Loading }
        event.unit
    } then updateUserPreferenceAct mapSuccess {
        event.unit
    } then ::loadTempFor

    private suspend fun loadTempFor(tempRes: Res<String, TemperatureUnit>) =
        tempRes.lambda() thenIfSuccess currentTempAct thenInvokeAfter {
            when (it) {
                is Res.Ok -> WeatherState.Success(
                    temp = it.data.value,
                    tempUnit = it.data.unit
                )
                is Res.Err -> WeatherState.Error(errReason = it.error)
            }
        }
}

UI

WeatherScreen.kt

data class WeatherScreen(
    val title: String
) : Screen

@Composable
fun BoxWithConstraintsScope.WeatherScreen(screen: WeatherScreen) {
    FRP<WeatherState, WeatherEvent, WeatherViewModel>(
        initialEvent = WeatherEvent.LoadWeather
    ) { state, onEvent ->
        UI(title = screen.title, state = state, onEvent = onEvent)
    }
}

@Composable
private fun UI(
    title: String,
    state: WeatherState,

    onEvent: (WeatherEvent) -> Unit
) {
    //UI goes here.....
    //When Celsius is clicked:
    // onEvent(WeatherEvent.UpdateTempUnit(TemperatureUnit.CELSIUS))
}

Find the full sample here.

Installation

Gradle KTS

1. Add maven(url = "https://jitpack.io") to repositories.

settings.gradle.kts (at the top)

dependencyResolutionManagement {
    repositoriesMode.set(RepositoriesMode.FAIL_ON_PROJECT_REPOS)
    repositories {
        google()
        mavenCentral()
        maven(url = "https://jitpack.io")
    }
}

//...

build.gradle.kts (buildSrc) (right below "plugins")

plugins {
    `kotlin-dsl`
}

repositories {
    google()
    mavenCentral()
    maven(url = "https://jitpack.io")
}

//...

2. Add com.github.ILIYANGERMANOV:ivy-frp:0.0.0 dependency.

< -- latest version

build.gradle.kts (app)

implementation("com.github.ILIYANGERMANOV:ivy-frp:0.0.0")

Replace 0.0.0 with the latest version from Jitpack.

Gradle

1. Add maven(url = "https://jitpack.io") to repositories.

2. Add com.github.ILIYANGERMANOV:ivy-frp:0.0.0 dependency.

< -- latest version

build.gradle.kts (app)

implementation 'com.githubILIYANGERMANOV:ivy-frp:0.0.0'

Docs

🚧 WIP... 🚧

For samples and usage in a real-world scenario please refer to the Ivy Wallet's GitHub repo.