Gleam OTP
A Gleam library for building fault tolerant multi-core programs using the actor model. It is compatible with Erlang’s OTP framework.
This library is experimental and will likely have many breaking changes in the future!
Gleam’s actor system is built with a few primary goals:
- Full type safety of actors and messages.
- Be compatible with Erlang’s OTP actor framework.
- Provide fault tolerance and self-healing through supervisors.
- Have equivalent performance to Erlang’s OTP.
This library documents its abstractions and functionality, but you may also wish to read the documentation or other material on Erlang’s OTP framework to get a fuller understanding of OTP, the problems it solves, and and the motivations for its design.
Usage
Add this library to your Gleam project.
gleam add gleam_otp
Actor hierarchy
This library provides several different types of actor that can be used in Gleam programs.
Process
The process is the lowest level building block of OTP, all other actors are built on top of processes either directly or indirectly. Typically this abstraction would be not be used very often in Gleam applications, favour other actor types that provide more functionality.
Gleam’s process module is defined in the gleam_erlang
library.
Actor
The actor
is the most commonly used process type in Gleam and serves as a good
building block for other abstractions. Like Erlang’s gen_server
it handles
OTP’s system messages automatically to enable OTP’s debugging and tracing
functionality.
Task
A task is a kind of process that performs a single task and then shuts down. Commonly tasks are used to convert sequential code into concurrent code by performing computation in another process.
Supervisor
Supervisors is a process that starts and then supervises a group of processes, restarting them if they crash. Supervisors can start other supervisors, resulting in a hierarchical process structure called a supervision tree, providing fault tolerance to a Gleam application.
Limitations and known issues
This library is experimental there are some limitations that not yet been resolved.
- There is no support for named processes. They are untyped global mutable variables which may be uninitialized, more research is needed to find a suitable type safe alternative.
- There are relatively few actor abstractions provided by this library. More will be added in the future.
- Actors do not yet support all OTP system messages. Unsupported messages are dropped.
- Supervisors do not yet support different shutdown periods per child. In practice this means that children that are supervisors do not get an unlimited amount of time to shut down, as is expected in Erlang or Elixir.
- This library has not seen much testing compared to the Erlang OTP libraries, both in terms of unit tests and real world testing in applications.