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Programming language: Elixir
License: MIT License
Tags: Actors    
Latest version: v2.2.4

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Hex.pm Hex.pm

I don't maintain this project anymore. In hindsight, I don't think it was a good idea in the first place. I haven't been using ExActor myself for years, and I recommend sticking with regular GenServer instead :-)

Simplifies implementation of GenServer based processes in Elixir.

ExActor helps removing the boilerplate that typically occurs when using GenServer behaviour. In particular, ExActor can be useful in following situations:

  • start function just packs all arguments into a tuple which it forwards to init/1 via GenServer.start.
  • Calls and casts interface functions just forward all arguments to the server process via GenServer.call and GenServer.cast.
  • Process is registered and all interface functions rely on this property.
  • Some handle_* functions don't need the state.
  • All handlers need to specify timeout or hibernate.
  • More liberal grouping of handler functions (you don't need to group calls and casts separately)

For other cases, you may need to use plain GenServer functions (which can be used together with ExActor macros). ExActor is not meant to fully replace GenServer. It just tries to reduce boilerplate in most common cases.

If you're new to Elixir, Erlang, and OTP, and are not familiar on how GenServer works, I strongly suggest you learn about it first. It's really not that hard, and you can use Elixir docs as the starting point. It's also worth going through Mix/OTP getting started guide. Once you're familiar with GenServer, you can consider using ExActor to reduce the boilerplate.

Online documentation is available here.

The stable package is available on hex.

Basic usage

Be sure to include a dependency in your mix.exs:

deps: [{:exactor, "~> 2.2.4", warn_missing: false}, ...]

ExActor is a compile-time dependency only. No need to add it into the list of dependent applications. All code transformations are performed at compile time. If you're using exrm to build OTP releases, you may need to supply the warn_missing: false option to prevent warnings about a missing application dependency.

defmodule Calculator do
  use ExActor.GenServer

  defstart start_link, do: initial_state(0)

  defcast inc(x), state: state, do: new_state(state + x)
  defcast dec(x), state: state, do: new_state(state - x)

  defcall get, state: state, do: reply(state)

  defcast stop, do: stop_server(:normal)

This module be used in a typical fashion:

{:ok, calculator} = Calculator.start_link
Calculator.inc(calculator, 10)
Calculator.dec(calculator, 3)


The module definition above is translated at compile-time into something like:

defmodule Calculator do
  use GenServer

  def start_link, do: GenServer.start_link(__MODULE__, nil)
  def stop(pid), do: GenServer.cast(pid, :stop)

  def inc(pid, x), do: GenServer.cast(pid, {:inc, x})
  def dec(pid, x), do: GenServer.cast(pid, {:dec, x})
  def get(pid), do: GenServer.call(pid, :get)

  def init(_), do: {:ok, 0}

  def handle_cast({:inc, x}, state), do: {:noreply, state + x}
  def handle_cast({:dec, x}, state), do: {:noreply, state - x}
  def handle_cast(:stop, state), do: {:stop, :normal, state}

  def handle_call(:get, _, state), do: {:reply, state, state}

A bit more complex and feature rich example is presented here.


To use ExActor macros, you must choose a predefine module and use it into your own module. A predefine is an ExActor module that provides some default implementations for GenServer callbacks.

Following predefines are currently provided:

  • ExActor.GenServer - All GenServer callbacks are provided by GenServer from Elixir standard library.
  • ExActor.Strict - All GenServer callbacks are provided. The default implementations for all except code_change and terminate will cause the server to be stopped.
  • ExActor.Tolerant - All GenServer callbacks are provided. The default implementations ignore all messages without stopping the server.
  • ExActor.Empty - No default implementation for GenServer callbacks are provided.

It is up to you to decide which predefine you want to use. See online docs for detailed description. You can also build your own predefine. Refer to the source code of the existing ones as a template.

Process registration

defmodule Calculator do
  use ExActor.GenServer, export: :calculator

  # you can also use via, and global
  # use ExActor.GenServer, export: {:global, :calculator}
  # use ExActor.GenServer, export: {:via, :gproc, :calculator}


# all functions defined via defcall and defcast will take
# advantage of the export option

Handling of return values

defstart start_link, do: initial_state(arg)

defcall foo, do: set_and_reply(new_state, response)
defcast bar, do: new_state(new_state)

defhandleinfo :stop, do: stop(normal)
defhandleinfo _, do: noreply

See here for detailed list.

Simplified initialization

defstart start_link(x, y, z) do
  # Generates start_link function and `init/1` clause. The code runs in init/1 function.
  initial_state(x + y + z)

By default, corresponding GenServer function is deduced from the function name, so you can use either start_link or start. If you want a custom function name, you need to provide explicit :link option:

defstart my_start(...), link: true do

Dynamic start parameters

defmodule Calculator do
  use ExActor.GenServer

  # gen_server_opts: :runtime will add additional argument to the start
  # function. This argument will be passed as options to the `GenServer` start
  # function.
  defstart start_link(x), gen_server_opts: :runtime, do: ...

# You can pass `name: :foo` due to `gen_server_opts: :runtime` option in the starter
Calculator.start_link(x, name: :foo)

# Or in the supervisor specification:
    worker(Calculator, [x, [name: :foo]]),
    # ...

Cluster support

defmodule Database do
  use ExActor.GenServer, export: :database

  defabcast store(key, value), do: ...
  defmulticall get(key), do: ...

# called on all nodes
Database.store(key, value)

# called on specified nodes
Database.store(some_nodes, key, value)
Database.get(some_nodes, key)

Private interface functions

There are private versions available in form of defstartp, defcallp, defcastp, defmulticallp, and defabcastp. The only difference here is that interface functions are defined with defp. This can help you when you need to include some custom logic before or after the operation. See here for an example.

Pattern matching

defstart start_link(1), do:
defstart start_link(2), do:
defstart start_link(x), when: x < 5, do:

defcall a(1), do: ...
defcall a(2), do: ...
defcall a(x), state: 1, do: ...
defcall a(x), when: x > 1, do: ...
defcall a(_), do: ...

defhandleinfo :msg, state: {...}, when: ..., do: ...

All matches take place on both interface and handler functions.

Default arguments are also supported:

defcall inc(x \\ 1), ...

In this case, we'll end up with two inc interface functions, and a single handle_call function that matches on {:inc, x}.

Implementing just handlers

Can be useful do handle messages:

defhandleinfo :some_message, do:
defhandleinfo :another_message, state: ..., do:

Or to pattern match on the state:

# Body-less clause defines only the interface function
defcast inc

# Handle clauses pattern match on the state
defhandlecast inc, state: state, when: is_number(state),
  do: new_state(state + 1)

defhandlecast inc, do: new_state(0)

Using from

defcall my_request(...), from: from do
  spawn_link(fn ->
    GenServer.reply(from, ...)


Server-wide timeouts and hibernate


defstart ... do
  # Instructs `ExActor` to include timeout in all responses made via responder
  # macros, such as `new_state` or `noreply`. As the result, a `:timeout` message
  # will be sent to the server after specified inactivity time.


defstart ... do
  # Instructs `ExActor` to include `:hibernate` in all responses made via responder
  # macros, such as `new_state` or `noreply`.

Dynamic code generation friendliness

May be useful if you need to dynamically generate your requests. For example, if calls/casts simply delegate to some module, we could do something like:

defmodule DynActor do
  use ExActor.GenServer

  for op <- [:op1, :op2] do
    defcall unquote(op), state: state do

A more involved example

In the following code, ExActor is used to implement a simple ETS based cache with basic cluster replication:

defmodule Cache do
  use ExActor.GenServer

  # Starter allows clients to specify cache name. Notice how this is used
  # in `gen_server_opts` as a registered name of the server.
  defstart start(cache_name, timeout_after \\ :infinity),
    gen_server_opts: [name: cache_name]
    # Specifies timeout which will be used in all handler responses
    :ets.new(cache_name, [:named_table, :set, :protected])

  # Looks up the cache in the client process
  def get(cache_name, key) do
    case :ets.lookup(cache_name, key) do
      [{^key, value}] -> value
      [] -> nil

  # An example of a more complex interface function. A get attempt is made
  # in the client process, and then we optionally issue a private call request.
  def get_or_create(cache_name, key, fun) do
    case get(cache_name, key) do
      nil -> server_get_or_create(cache_name, key, fun)
      existing -> existing

  # Private call request used from `get_or_create`
  defcallp server_get_or_create(key, fun), state: cache_name do
    case get(cache_name, key) do
      nil ->
        new = fun.()
        store(cache_name, key, new)
        # Makes a distributed call to all other nodes
        set(Node.list, cache_name, key, new)

      existing -> existing
    |> reply

  # Distributed setter - stores to all nodes in the cluster
  defmulticall set(key, value), state: cache_name do
    store(cache_name, key, value)

  defp store(cache_name, key, value) do
    :ets.insert(cache_name, {key, value})

  # Stops the server on timeout message
  defhandleinfo :timeout, do: stop_server(:normal)
  defhandleinfo _, do: noreply