Lua

Lua is an Elixir-native Lua 5.3 virtual machine. It runs Lua code on the BEAM with no Erlang or C dependencies, and exposes an ergonomic Elixir API for embedding Lua scripting in your application.

Features

Lua the Elixir library vs Lua the language {: .info}

When referring to this library, Lua will be stylized as a link.

References to Lua the language will be in plaintext and not linked.

Executing Lua

Lua can be run using the eval!/2 function

iex> {[4], _} = Lua.eval!("return 2 + 2")

Compile-time validation

Use the ~LUA sigil to parse and validate your Lua code at compile time

iex> import Lua, only: [sigil_LUA: 2]



#iex> {[4], _} = Lua.eval!(~LUA[return 2 +])

** (Lua.CompilerException) Failed to compile Lua!

Using the c modifier transforms your Lua code into a t:Lua.Chunk.t/0 at compile-time, which will speed up execution at runtime since the Lua no longer needs to be parsed

iex> import Lua, only: [sigil_LUA: 2]

iex> {[4], _} = Lua.eval!(~LUA[return 2 + 2]c)

Exposing Elixir functions to Lua

The simplest way to expose an Elixir function to Lua is using the Lua.set!/3 function

import Lua, only: [sigil_LUA: 2]



lua = 

  Lua.set!(Lua.new(), [:sum], fn args ->

    [Enum.sum(args)]

  end)



{[10], _} = Lua.eval!(lua, ~LUA[return sum(1, 2, 3, 4)]c)

For easily expressing APIs, Lua provides the deflua macro for exposing Elixir functions to Lua

defmodule MyAPI do

  use Lua.API

      

  deflua double(v), do: 2 * v

end



import Lua, only: [sigil_LUA: 2]

    

lua = Lua.new() |> Lua.load_api(MyAPI)



{[10], _} = Lua.eval!(lua, ~LUA[return double(5)])

Calling Lua functions from Elixir

Lua can be used to expose complex functions written in Elixir. In some cases, you may want to call Lua functions from Elixir. This can be achieved with the Lua.call_function!/3 function

defmodule MyAPI do

  use Lua.API, scope: "example"



  deflua foo(value), state do

    Lua.call_function!(state, [:string, :lower], [value])

  end

end



import Lua, only: [sigil_LUA: 2]



lua = Lua.new() |> Lua.load_api(MyAPI)



{["wow"], _} = Lua.eval!(lua, ~LUA[return example.foo("WOW")])

Modify Lua state from Elixir

You can also use Lua to modify the state of the lua environment inside your Elixir code. Imagine you have a queue module that you want to implement in Elixir, with the queue stored in a global variable

defmodule Queue do

  use Lua.API, scope: "q"

  

  deflua push(v), state do

    # Pull out the global variable "my_queue" from lua

    queue = Lua.get!(state, [:my_queue])

    

    # Call the Lua function table.insert(table, value)

    {[], state} = Lua.call_function!(state, [:table, :insert], [queue, v])

    

    # Return the modified lua state with no return values

    {[], state}

  end

end



import Lua, only: [sigil_LUA: 2]



lua = Lua.new() |> Lua.load_api(Queue)



{[queue], _} =

  Lua.eval!(lua, """

  my_queue = {}



  q.push("first")

  q.push("second")



  return my_queue

  """)

  

["first", "second"] = Lua.Table.as_list(queue)

Accessing private state from Elixir

When building applications with Lua, you may find yourself in need of propagating extra context for use in your APIs. For instance, you may want to access information about the current user who executed the Lua script, an API key, or something else that is private and should not be available to the Lua code. For this, we have the Lua.put_private/3, Lua.get_private/2, and Lua.delete_private/2 functions.

For example, imagine you wanted to allow the user to access information about themselves

defmodule User do

  defstruct [:name]

end



defmodule UserAPI do

  use Lua.API, scope: "user"

  

  deflua name(), state do

    user = Lua.get_private!(state, :user) 

    

    {[user.name], state}

  end

end



user = %User{name: "Robert Virding"}



lua = Lua.new() |> Lua.put_private(:user, user) |> Lua.load_api(UserAPI)



{["Hello Robert Virding"], _lua} = Lua.eval!(lua, ~LUA"""

  return "Hello " .. user.name()

""")

This allows you to have simple, expressive APIs that access context that is unavailable to the Lua code.

Encoding and Decoding data

When working with Lua, you may want to inject data of various types into the runtime. Some values, such as integers, have the same representation inside the VM as they do in Elixir and do not require encoding. Other values, such as maps, are represented inside the VM as tables and must be encoded first. Arbitrary Elixir terms can be passed across the boundary using a {:userdata, any()} tuple.

Values may be encoded with Lua.encode!/2.

Elixir typeInternal VM typeRequires encoding?
nilnilno
boolean()boolean()no
number()number()no
binary()binary()no
atom()binary()yes
map(){:tref, integer()}yes
{:userdata, any()}{:udref, integer()}yes
(any()) -> any(){:native_func, fun}yes
(any(), Lua.t()) -> any(){:native_func, fun}yes
list(any())list(VM type)maybe (if any of its values require encoding)

Userdata

There are situations where you want to pass around a reference to some Elixir datastructure, such as a struct. In these situations, you can use a {:userdata, any()} tuple.

defmodule Thing do

  defstruct [:value]

end



{encoded, lua} = Lua.encode!(Lua.new(), {:userdata, %Thing{value: "1234"}})



lua = Lua.set!(lua, [:foo], encoded)



{[{:userdata, %Thing{value: "1234"}}], _} = Lua.eval!(lua, "return foo")

Trying to deference userdata inside a Lua program will result in an exception.

Credits

Lua started as an ergonomic Elixir wrapper around Robert Virding's Luerl project. As of 1.0.0 this library is a full Elixir-native reimplementation of the Lua 5.3 lexer, parser, and virtual machine, with a public API designed to feel idiomatic from Elixir. Luerl deserves credit as the prior art that made this possible — its design informed many of the decisions in the new VM, and we benchmark against it.