View Source Meta-programming anti-patterns

This document outlines potential anti-patterns related to meta-programming.

Large code generation

Problem

This anti-pattern is related to macros that generate too much code. When a macro generates a large amount of code, it impacts how the compiler and/or the runtime work. The reason for this is that Elixir may have to expand, compile, and execute the code multiple times, which will make compilation slower and the resulting compiled artifacts larger.

Example

Imagine you are defining a router for a web application, where you could have macros like get/2. On every invocation of the macro (which could be hundreds), the code inside get/2 will be expanded and compiled, which can generate a large volume of code overall.

defmodule Routes do
  defmacro get(route, handler) do
    quote do
      route = unquote(route)
      handler = unquote(handler)

      if not is_binary(route) do
        raise ArgumentError, "route must be a binary"
      end

      if not is_atom(handler) do
        raise ArgumentError, "handler must be a module"
      end

      @store_route_for_compilation {route, handler}
    end
  end
end

Refactoring

To remove this anti-pattern, the developer should simplify the macro, delegating part of its work to other functions. As shown below, by encapsulating the code inside quote/1 inside the function __define__/3 instead, we reduce the code that is expanded and compiled on every invocation of the macro, and instead we dispatch to a function to do the bulk of the work.

defmodule Routes do
  defmacro get(route, handler) do
    quote do
      Routes.__define__(__MODULE__, unquote(route), unquote(handler))
    end
  end

  def __define__(module, route, handler) do
    if not is_binary(route) do
      raise ArgumentError, "route must be a binary"
    end

    if not is_atom(handler) do
      raise ArgumentError, "handler must be a module"
    end

    Module.put_attribute(module, :store_route_for_compilation, {route, handler})
  end
end

Unnecessary macros

Problem

Macros are powerful meta-programming mechanisms that can be used in Elixir to extend the language. While using macros is not an anti-pattern in itself, this meta-programming mechanism should only be used when absolutely necessary. Whenever a macro is used, but it would have been possible to solve the same problem using functions or other existing Elixir structures, the code becomes unnecessarily more complex and less readable. Because macros are more difficult to implement and reason about, their indiscriminate use can compromise the evolution of a system, reducing its maintainability.

Example

The MyMath module implements the sum/2 macro to perform the sum of two numbers received as parameters. While this code has no syntax errors and can be executed correctly to get the desired result, it is unnecessarily more complex. By implementing this functionality as a macro rather than a conventional function, the code became less clear:

defmodule MyMath do
  defmacro sum(v1, v2) do
    quote do
      unquote(v1) + unquote(v2)
    end
  end
end

iex> require MyMath
MyMath
iex> MyMath.sum(3, 5)
8
iex> MyMath.sum(3 + 1, 5 + 6)
15

Refactoring

To remove this anti-pattern, the developer must replace the unnecessary macro with structures that are simpler to write and understand, such as named functions. The code shown below is the result of the refactoring of the previous example. Basically, the sum/2 macro has been transformed into a conventional named function. Note that the require/2 call is no longer needed:

defmodule MyMath do
  def sum(v1, v2) do # <= The macro became a named function
    v1 + v2
  end
end

iex> MyMath.sum(3, 5)
8
iex> MyMath.sum(3+1, 5+6)
15

use instead of import

Problem

Elixir has mechanisms such as import/1, alias/1, and use/1 to establish dependencies between modules. Code implemented with these mechanisms does not characterize a smell by itself. However, while the import/1 and alias/1 directives have lexical scope and only facilitate a module calling functions of another, the use/1 directive has a broader scope, which can be problematic.

The use/1 directive allows a module to inject any type of code into another, including propagating dependencies. In this way, using the use/1 directive makes code harder to read, because to understand exactly what will happen when it references a module, it is necessary to have knowledge of the internal details of the referenced module.

Example

The code shown below is an example of this anti-pattern. It defines three modules -- ModuleA, Library, and ClientApp. ClientApp is reusing code from the Library via the use/1 directive, but is unaware of its internal details. This makes it harder for the author of ClientApp to visualize which modules and functionality are now available within its module. To make matters worse, Library also imports ModuleA, which defines a foo/0 function that conflicts with a local function defined in ClientApp:

defmodule ModuleA do
  def foo do
    "From Module A"
  end
end

defmodule Library do
  defmacro __using__(_opts) do
    quote do
      import Library
      import ModuleA  # <= propagating dependencies!
    end
  end

  def from_lib do
    "From Library"
  end
end

defmodule ClientApp do
  use Library

  def foo do
    "Local function from client app"
  end

  def from_client_app do
    from_lib() <> " - " <> foo()
  end
end

When we try to compile ClientApp, Elixir detects the conflict and throws the following error:

error: imported ModuleA.foo/0 conflicts with local function
  └ client_app.ex:4:

Refactoring

To remove this anti-pattern, we recommend library authors avoid providing __using__/1 callbacks whenever it can be replaced by alias/1 or import/1 directives. In the following code, we assume use Library is no longer available and ClientApp was refactored in this way, and with that, the code is clearer and the conflict as previously shown no longer exists:

defmodule ClientApp do
  import Library

  def foo do
    "Local function from client app"
  end

  def from_client_app do
    from_lib() <> " - " <> foo()
  end
end

iex> ClientApp.from_client_app()
"From Library - Local function from client app"

Additional remarks

In situations where you need to do more than importing and aliasing modules, providing use MyModule may be necessary, as it provides a common extension point within the Elixir ecosystem.

Therefore, to provide guidance and clarity, we recommend library authors to include an admonition block in their @moduledoc that explains how use MyModule impacts the developer's code. As an example, the GenServer documentation outlines:

use GenServer

When you use GenServer, the GenServer module will set @behaviour GenServer and define a child_spec/1 function, so your module can be used as a child in a supervision tree.

Think of this summary as a "Nutrition facts label" for code generation. Make sure to only list changes made to the public API of the module. For example, if use Library sets an internal attribute called @_some_module_info and this attribute is never meant to be public, avoid documenting it in the nutrition facts.

For convenience, the markup notation to generate the admonition block above is this:

> #### `use GenServer` {: .info}
>
> When you `use GenServer`, the `GenServer` module will
> set `@behaviour GenServer` and define a `child_spec/1`
> function, so your module can be used as a child
> in a supervision tree.