Mutiny is a novel reactive programming library.
Mutiny provides a simple but powerful asynchronous development model that lets you build reactive applications.
Mutiny can be used in any Java application exhibiting asynchrony.
From reactive microservices, data streaming, event processing to API gateways and network utilities, Mutiny is a great fit.
Mutiny places events at the core of its design. With Mutiny, you observe events, react to them, and create elegant and readable processing pipelines.
💡 A PhD in functional programming is not required.
Even with smart code completion, classes with hundred of methods are confusing.
Mutiny provides a navigable and explicit API driving you towards the operator you need.
Mutiny is the perfect companion to tame the asynchronous nature of applications with non-blocking I/O.
Declaratively compose operations, transform data, enforce progress, recover from failures and more.
Mutiny is integrated in Quarkus where every reactive API uses Mutiny, and Eclipse Vert.x clients are made available using Mutiny bindings.
Mutiny is however an independent library that can ultimately be used in any Java application.
Mutiny is based on the Reactive Streams protocol, and so it can be integrated with any other reactive programming library.
In addition, Mutiny offers converters to interact with other popular libraries and Kotlin.
Mutiny is built with Apache Maven, so all you need is:
./mvnw install
Git branch | Versions | Baseline | Compliance |
---|---|---|---|
main |
2.x (in development) | Java 11, java.util.concurrent.Flow |
Reactive Streams TCK 1.0.4 |
1.x |
1.x.y (backports, bug fixes) | Java 8, Reactive Streams 1.0.4 | Reactive Streams TCK 1.0.4 |
See the contributing guidelines
Mutiny is an open project, feel-free to:
For anything related to the usage of Mutiny in Quarkus, please refer to the Quarkus support
For more general discussions about Mutiny, you can:
- start a new discussion thread in GitHub Discussions (preferred option), or
- use the
mutiny
tag on StackOverflow.
Julien Ponge, Arthur Navarro, Clément Escoffier, and Frédéric Le Mouël. 2021. Analysing the Performance and Costs of Reactive Programming Libraries in Java. In Proceedings of the 8th ACM SIGPLAN International Workshop on Reactive and Event-Based Languages and Systems (REBLS ’21), October 18, 2021, Chicago, IL, USA. ACM, New York, NY, USA, 10 pages. (PDF)