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https://github.com/Tinder/StateMachine

A Kotlin and Swift DSL for finite state machine
https://github.com/Tinder/StateMachine
Last synced: about 2 months ago
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A Kotlin and Swift DSL for finite state machine
Host: GitHub
URL: https://github.com/Tinder/StateMachine
Owner: Tinder
License: other
Created: 2018-06-01T22:33:51.000Z (over 6 years ago)
Default Branch: main
Last Pushed: 2024-07-22T04:05:41.000Z (5 months ago)
Last Synced: 2024-10-16T05:42:23.033Z (about 2 months ago)
Language: Swift
Homepage:
Size: 232 KB
Stars: 1,969
Watchers: 36
Forks: 128
Open Issues: 30
Metadata Files:
- Readme: README.md
- License: LICENSE
Awesome Lists containing this project

awesome-kotlin - StateMachine - A Kotlin DSL for finite state machine (Libraries)
awesome-list - StateMachine
README

        # StateMachine

[![Swift](https://github.com/Tinder/StateMachine/actions/workflows/swift.yml/badge.svg)](https://github.com/Tinder/StateMachine/actions/workflows/swift.yml)

A state machine library in Kotlin and Swift.

`StateMachine` is used in [Scarlet](https://github.com/Tinder/Scarlet)

## Example State Diagram

The examples below create a `StateMachine` from the following state diagram for matter:



## Kotlin Usage

Define states, events and side effects:

```kotlin

sealed class State {

    object Solid : State()

    object Liquid : State()

    object Gas : State()

}

sealed class Event {

    object OnMelted : Event()

    object OnFroze : Event()

    object OnVaporized : Event()

    object OnCondensed : Event()

}

sealed class SideEffect {

    object LogMelted : SideEffect()

    object LogFrozen : SideEffect()

    object LogVaporized : SideEffect()

    object LogCondensed : SideEffect()

}

```

Initialize state machine and declare state transitions:

```kotlin

val stateMachine = StateMachine.create {

    initialState(State.Solid)

    state {

        on {

            transitionTo(State.Liquid, SideEffect.LogMelted)

        }

    }

    state {

        on {

            transitionTo(State.Solid, SideEffect.LogFrozen)

        }

        on {

            transitionTo(State.Gas, SideEffect.LogVaporized)

        }

    }

    state {

        on {

            transitionTo(State.Liquid, SideEffect.LogCondensed)

        }

    }

    onTransition {

        val validTransition = it as? StateMachine.Transition.Valid ?: return@onTransition

        when (validTransition.sideEffect) {

            SideEffect.LogMelted -> logger.log(ON_MELTED_MESSAGE)

            SideEffect.LogFrozen -> logger.log(ON_FROZEN_MESSAGE)

            SideEffect.LogVaporized -> logger.log(ON_VAPORIZED_MESSAGE)

            SideEffect.LogCondensed -> logger.log(ON_CONDENSED_MESSAGE)

        }

    }

}

```

Perform state transitions:

```kotlin

assertThat(stateMachine.state).isEqualTo(Solid)

// When

val transition = stateMachine.transition(OnMelted)

// Then

assertThat(stateMachine.state).isEqualTo(Liquid)

assertThat(transition).isEqualTo(

    StateMachine.Transition.Valid(Solid, OnMelted, Liquid, LogMelted)

)

then(logger).should().log(ON_MELTED_MESSAGE)

```

## Swift Usage

Adopt `StateMachineBuilder` to gain access to the DSL builder methods:

```swift

class MyExample: StateMachineBuilder {

    ... state machine implementation ...

}

```

Define states, events and side effects:

```swift

@StateMachineHashable

enum State {

    case solid, liquid, gas

}

@StateMachineHashable

enum Event {

    case melt, freeze, vaporize, condense

}

enum SideEffect {

    case logMelted, logFrozen, logVaporized, logCondensed

}

```

Initialize state machine and declare state transitions:

```swift

let stateMachine = StateMachine {

    initialState(.solid)

    state(.solid) {

        on(.melt) {

            transition(to: .liquid, emit: .logMelted)

        }

    }

    state(.liquid) {

        on(.freeze) {

            transition(to: .solid, emit: .logFrozen)

        }

        on(.vaporize) {

            transition(to: .gas, emit: .logVaporized)

        }

    }

    state(.gas) {

        on(.condense) {

            transition(to: .liquid, emit: .logCondensed)

        }

    }

    onTransition {

        guard case let .success(transition) = $0, let sideEffect = transition.sideEffect else { return }

        switch sideEffect {

        case .logMelted: logger.log(Message.melted)

        case .logFrozen: logger.log(Message.frozen)

        case .logVaporized: logger.log(Message.vaporized)

        case .logCondensed: logger.log(Message.condensed)

        }

    }

}

```

Perform state transitions:

```swift

expect(stateMachine.state).to(equal(.solid))

// When

let transition = try stateMachine.transition(.melt)

// Then

expect(stateMachine.state).to(equal(.liquid))

expect(transition).to(equal(

    StateMachine.Transition.Valid(fromState: .solid, event: .melt, toState: .liquid, sideEffect: .logMelted))

)

expect(logger).to(log(Message.melted))

```

#### Pre-Swift 5.9 Compatibility

Expand




This information is only applicable to Swift versions older than `5.9`:

> ### Swift Enumerations with Associated Values

>

> Due to Swift enumerations (as opposed to sealed classes in Kotlin), any `State` or `Event` enumeration defined with associated values will require [boilerplate implementation](https://github.com/Tinder/StateMachine/blob/c5c8155d55db5799190d9a06fbc31263c76c80b6/Swift/Tests/StateMachineTests/StateMachine_Turnstile_Tests.swift#L198-L260) for `StateMachineHashable` conformance.

>

> The easiest way to create this boilerplate is by using the [Sourcery](https://github.com/krzysztofzablocki/Sourcery) Swift code generator along with the [AutoStateMachineHashable stencil template](https://github.com/Tinder/StateMachine/blob/main/Swift/Resources/AutoStateMachineHashable.stencil) provided in this repository. Once the codegen is setup and configured, adopt `AutoStateMachineHashable` instead of `StateMachineHashable` for the `State` and/or `Event` enumerations.

## Examples

#### Matter State Machine

- [Kotlin](https://github.com/Tinder/StateMachine/blob/c5c8155d55db5799190d9a06fbc31263c76c80b6/src/test/kotlin/com/tinder/StateMachineTest.kt#L18-L47)

- [Swift](https://github.com/Tinder/StateMachine/blob/c5c8155d55db5799190d9a06fbc31263c76c80b6/Swift/Tests/StateMachineTests/StateMachine_Matter_Tests.swift#L40-L69)

#### Turnstile State Machine

- [Kotlin](https://github.com/Tinder/StateMachine/blob/c5c8155d55db5799190d9a06fbc31263c76c80b6/src/test/kotlin/com/tinder/StateMachineTest.kt#L157-L185)

- [Swift](https://github.com/Tinder/StateMachine/blob/c5c8155d55db5799190d9a06fbc31263c76c80b6/Swift/Tests/StateMachineTests/StateMachine_Turnstile_Tests.swift#L36-L64)

## Kotlin Download

`StateMachine` is available in Maven Central.

Snapshots of the development version are available in [Sonatype's `snapshots` repository](https://oss.sonatype.org/content/repositories/snapshots/).

### Maven

```xml

    com.tinder.statemachine

    statemachine

    0.3.0

```

### Gradle

```groovy

implementation 'com.tinder.statemachine:statemachine:0.3.0'

```

## Swift Installation

### Swift Package Manager

```

.package(url: "https://github.com/Tinder/StateMachine.git", from: "0.3.0")

```

### Cocoapods

```

pod 'StateMachine', :git => 'https://github.com/Tinder/StateMachine.git'

```

## References

[A composable pattern for pure state machines with effects](https://gist.github.com/andymatuschak/d5f0a8730ad601bcccae97e8398e25b2) - [Andy Matuschak](https://gist.github.com/andymatuschak)

## Visualization

Thanks to [@nvinayshetty](https://github.com/nvinayshetty), you can visualize your state machines right in the IDE using the [State Arts](https://github.com/nvinayshetty/StateArts) Intellij [plugin](https://plugins.jetbrains.com/plugin/12193-state-art).

## License

```

Copyright (c) 2018, Match Group, LLC

All rights reserved.

Redistribution and use in source and binary forms, with or without

modification, are permitted provided that the following conditions are met:

    * Redistributions of source code must retain the above copyright

      notice, this list of conditions and the following disclaimer.

    * Redistributions in binary form must reproduce the above copyright

      notice, this list of conditions and the following disclaimer in the

      documentation and/or other materials provided with the distribution.

    * Neither the name of Match Group, LLC nor the names of its contributors

      may be used to endorse or promote products derived from this software

      without specific prior written permission.

THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND

ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED

WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE

DISCLAIMED. IN NO EVENT SHALL MATCH GROUP, LLC BE LIABLE FOR ANY

DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES

(INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;

LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND

ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT

(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS

SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

```