View Source alias, require, import, and use
In order to facilitate software reuse, Elixir provides three directives (alias
, require
, and import
) plus a macro called use
summarized below:
# Alias the module so it can be called as Bar instead of Foo.Bar
alias Foo.Bar, as: Bar
# Require the module in order to use its macros
require Foo
# Import functions from Foo so they can be called without the `Foo.` prefix
import Foo
# Invokes the custom code defined in Foo as an extension point
use Foo
We are going to explore them in detail now. Keep in mind the first three are called directives because they have lexical scope, while use
is a common extension point that allows the used module to inject code.
alias
alias
allows you to set up aliases for any given module name.
Imagine a module uses a specialized list implemented in Math.List
. The alias
directive allows referring to Math.List
just as List
within the module definition:
defmodule Stats do
alias Math.List, as: List
# In the remaining module definition List expands to Math.List.
end
The original List
can still be accessed within Stats
by the fully-qualified name Elixir.List
.
All modules defined in Elixir are defined inside the main
Elixir
namespace, such asElixir.String
. However, for convenience, you can omit "Elixir." when referencing them.
Aliases are frequently used to define shortcuts. In fact, calling alias
without an :as
option sets the alias automatically to the last part of the module name, for example:
alias Math.List
Is the same as:
alias Math.List, as: List
Note that alias
is lexically scoped, which allows you to set aliases inside specific functions:
defmodule Math do
def plus(a, b) do
alias Math.List
# ...
end
def minus(a, b) do
# ...
end
end
In the example above, since we are invoking alias
inside the function plus/2
, the alias will be valid only inside the function plus/2
. minus/2
won't be affected at all.
require
Elixir provides macros as a mechanism for meta-programming (writing code that generates code). Macros are expanded at compile time.
Public functions in modules are globally available, but in order to use macros, you need to opt-in by requiring the module they are defined in.
iex> Integer.is_odd(3)
** (UndefinedFunctionError) function Integer.is_odd/1 is undefined or private. However, there is a macro with the same name and arity. Be sure to require Integer if you intend to invoke this macro
(elixir) Integer.is_odd(3)
iex> require Integer
Integer
iex> Integer.is_odd(3)
true
In Elixir, Integer.is_odd/1
is defined as a macro so that it can be used as a guard. This means that, in order to invoke Integer.is_odd/1
, we need to first require the Integer
module.
Note that like the alias
directive, require
is also lexically scoped. We will talk more about macros in a later chapter.
import
We use import
whenever we want to access functions or macros from other modules without using the fully-qualified name. Note we can only import public functions, as private functions are never accessible externally.
For example, if we want to use the duplicate/2
function from the List
module several times, we can import it:
iex> import List, only: [duplicate: 2]
List
iex> duplicate(:ok, 3)
[:ok, :ok, :ok]
We imported only the function duplicate
(with arity 2) from List
. Although :only
is optional, its usage is recommended in order to avoid importing all the functions of a given module inside the current scope. :except
could also be given as an option in order to import everything in a module except a list of functions.
Note that import
is lexically scoped too. This means that we can import specific macros or functions inside function definitions:
defmodule Math do
def some_function do
import List, only: [duplicate: 2]
duplicate(:ok, 10)
end
end
In the example above, the imported List.duplicate/2
is only visible within that specific function. duplicate/2
won't be available in any other function in that module (or any other module for that matter).
While import
s can be a useful for frameworks and libraries to build abstractions, developers should generally prefer alias
to import
on their own codebases, as aliases make the origin of the function being invoked clearer.
use
The use
macro is frequently used as an extension point. This means that, when you use
a module FooBar
, you allow that module to inject any code in the current module, such as importing itself or other modules, defining new functions, setting a module state, etc.
For example, in order to write tests using the ExUnit framework, a developer should use the ExUnit.Case
module:
defmodule AssertionTest do
use ExUnit.Case, async: true
test "always pass" do
assert true
end
end
Behind the scenes, use
requires the given module and then calls the __using__/1
callback on it allowing the module to inject some code into the current context. Some modules (for example, the above ExUnit.Case
, but also Supervisor
and GenServer
) use this mechanism to populate your module with some basic behaviour, which your module is intended to override or complete.
Generally speaking, the following module:
defmodule Example do
use Feature, option: :value
end
is compiled into
defmodule Example do
require Feature
Feature.__using__(option: :value)
end
Since use
allows any code to run, we can't really know the side-effects of using a module without reading its documentation. Therefore use this function with care and only if strictly required. Don't use use
where an import
or alias
would do.
Understanding Aliases
At this point, you may be wondering: what exactly is an Elixir alias and how is it represented?
An alias in Elixir is a capitalized identifier (like String
, Keyword
, etc) which is converted to an atom during compilation. For instance, the String
alias translates by default to the atom :"Elixir.String"
:
iex> is_atom(String)
true
iex> to_string(String)
"Elixir.String"
iex> :"Elixir.String" == String
true
By using the alias/2
directive, we are changing the atom the alias expands to.
Aliases expand to atoms because in the Erlang Virtual Machine (and consequently Elixir) modules are always represented by atoms:
iex> List.flatten([1, [2], 3])
[1, 2, 3]
iex> :"Elixir.List".flatten([1, [2], 3])
[1, 2, 3]
That's the mechanism we use to call Erlang modules:
iex> :lists.flatten([1, [2], 3])
[1, 2, 3]
Module nesting
Now that we have talked about aliases, we can talk about nesting and how it works in Elixir. Consider the following example:
defmodule Foo do
defmodule Bar do
end
end
The example above will define two modules: Foo
and Foo.Bar
. The second can be accessed as Bar
inside Foo
as long as they are in the same lexical scope.
If, later, the Bar
module is moved outside the Foo
module definition, it must be referenced by its full name (Foo.Bar
) or an alias must be set using the alias
directive discussed above.
Note: in Elixir, you don't have to define the Foo
module before being able to define the Foo.Bar
module, as they are effectively independent. The above could also be written as:
defmodule Foo.Bar do
end
defmodule Foo do
alias Foo.Bar
# Can still access it as `Bar`
end
Aliasing a nested module does not bring parent modules into scope. Consider the following example:
defmodule Foo do
defmodule Bar do
defmodule Baz do
end
end
end
alias Foo.Bar.Baz
# The module `Foo.Bar.Baz` is now available as `Baz`
# However, the module `Foo.Bar` is *not* available as `Bar`
As we will see in later chapters, aliases also play a crucial role in macros, to guarantee they are hygienic.
Multi alias/import/require/use
It is possible to alias
, import
, require
, or use
multiple modules at once. This is particularly useful once we start nesting modules, which is very common when building Elixir applications. For example, imagine you have an application where all modules are nested under MyApp
, you can alias the modules MyApp.Foo
, MyApp.Bar
and MyApp.Baz
at once as follows:
alias MyApp.{Foo, Bar, Baz}
With this, we have finished our tour of Elixir modules. The next topic to cover is module attributes.