Liquid architecture. It's like jazz — you improvise, you work together, you play off each other, you make something, they make something.
—Frank Gehry
Style matters. Elixir has plenty of style but like all languages it can be stifled. Don't stifle the style.
This is community style guide for the Elixir programming language. Please feel free to make pull requests and suggestions, and be a part of Elixir's vibrant community.
If you're looking for other projects to contribute to please see the Hex package manager site.
Translations of the guide are available in the following languages:
Elixir v1.6 introduced a Code Formatter and Mix format task. The formatter should be preferred for all new projects and source code.
The rules in this section are applied automatically by the code formatter, but are provided here as examples of the preferred style.
-
Avoid trailing whitespace. [link]
-
End each file with a newline. [link]
-
Use Unix-style line endings (*BSD/Solaris/Linux/OSX users are covered by default, Windows users have to be extra careful). [link]
-
If you're using Git you might want to add the following configuration setting to protect your project from Windows line endings creeping in: [link]
git config --global core.autocrlf true
-
Limit lines to 98 characters. Otherwise, set the
:line_length
option in your.formatter.exs
file. [link] -
Use spaces around operators, after commas, colons and semicolons. Do not put spaces around matched pairs like brackets, parentheses, etc. Whitespace might be (mostly) irrelevant to the Elixir runtime, but its proper use is the key to writing easily readable code. [link]
sum = 1 + 2 {a, b} = {2, 3} [first | rest] = [1, 2, 3] Enum.map(["one", <<"two">>, "three"], fn num -> IO.puts(num) end)
-
Do not use spaces after non-word operators that only take one argument; or around the range operator. [link]
0 - 1 == -1 ^pinned = some_func() 5 in 1..10
-
Use blank lines between
def
s to break up a function into logical paragraphs. [link]def some_function(some_data) do some_data |> other_function() |> List.first() end def some_function do result end def some_other_function do another_result end def a_longer_function do one two three four end
-
Don't put a blank line after
defmodule
. [link] -
If the function head and
do:
clause are too long to fit on the same line, putdo:
on a new line, indented one level more than the previous line. [link]def some_function([:foo, :bar, :baz] = args), do: Enum.map(args, fn arg -> arg <> " is on a very long line!" end)
When the
do:
clause starts on its own line, treat it as a multiline function by separating it with blank lines.# not preferred def some_function([]), do: :empty def some_function(_), do: :very_long_line_here # preferred def some_function([]), do: :empty def some_function(_), do: :very_long_line_here
-
Add a blank line after a multiline assignment as a visual cue that the assignment is 'over'. [link]
# not preferred some_string = "Hello" |> String.downcase() |> String.trim() another_string <> some_string # preferred some_string = "Hello" |> String.downcase() |> String.trim() another_string <> some_string
# also not preferred something = if x == 2 do "Hi" else "Bye" end String.downcase(something) # preferred something = if x == 2 do "Hi" else "Bye" end String.downcase(something)
-
If a list, map, or struct spans multiple lines, put each element, as well as the opening and closing brackets, on its own line. Indent each element one level, but not the brackets. [link]
# not preferred [:first_item, :second_item, :next_item, :final_item] # preferred [ :first_item, :second_item, :next_item, :final_item ]
-
When assigning a list, map, or struct, keep the opening bracket on the same line as the assignment. [link]
# not preferred list = [ :first_item, :second_item ] # preferred list = [ :first_item, :second_item ]
-
If any
case
orcond
clause needs more than one line (due to line length, multiple expressions in the clause body, etc.), use multi-line syntax for all clauses, and separate each one with a blank line. [link]# not preferred case arg do true -> IO.puts("ok"); :ok false -> :error end # not preferred case arg do true -> IO.puts("ok") :ok false -> :error end # preferred case arg do true -> IO.puts("ok") :ok false -> :error end
-
Place comments above the line they comment on. [link]
String.first(some_string) # not preferred # preferred String.first(some_string)
-
Use one space between the leading
#
character of the comment and the text of the comment. [link]#not preferred String.first(some_string) # preferred String.first(some_string)
-
Indent and align successive
with
clauses. Put thedo:
argument on a new line, aligned with the previous clauses. [link]with {:ok, foo} <- fetch(opts, :foo), {:ok, my_var} <- fetch(opts, :my_var), do: {:ok, foo, my_var}
-
If the
with
expression has ado
block with more than one line, or has anelse
option, use multiline syntax. [link]with {:ok, foo} <- fetch(opts, :foo), {:ok, my_var} <- fetch(opts, :my_var) do {:ok, foo, my_var} else :error -> {:error, :bad_arg} end
-
Use parentheses for one-arity functions when using the pipe operator (
|>
). [link]# not preferred some_string |> String.downcase |> String.trim # preferred some_string |> String.downcase() |> String.trim()
-
Never put a space between a function name and the opening parenthesis. [link]
# not preferred f (3 + 2) # preferred f(3 + 2)
-
Use parentheses in function calls, especially inside a pipeline. [link]
# not preferred f 3 # preferred f(3) # not preferred and parses as rem(2, (3 |> g)), which is not what you want. 2 |> rem 3 |> g # preferred 2 |> rem(3) |> g()
-
Omit square brackets from keyword lists whenever they are optional. [link]
# not preferred some_function(foo, bar, [a: "baz", b: "qux"]) # preferred some_function(foo, bar, a: "baz", b: "qux")
The rules in this section may not be applied by the code formatter, but they are generally preferred practice.
-
Run single-line
def
s that match for the same function together, but separate multilinedef
s with a blank line. [link]def some_function(nil), do: {:error, "No Value"} def some_function([]), do: :ok def some_function([first | rest]) do some_function(rest) end
-
If you have more than one multiline
def
, do not use single-linedef
s. [link]def some_function(nil) do {:error, "No Value"} end def some_function([]) do :ok end def some_function([first | rest]) do some_function(rest) end def some_function([first | rest], opts) do some_function(rest, opts) end
-
Use the pipe operator to chain functions together. [link]
# not preferred String.trim(String.downcase(some_string)) # preferred some_string |> String.downcase() |> String.trim() # Multiline pipelines are not further indented some_string |> String.downcase() |> String.trim() # Multiline pipelines on the right side of a pattern match # should be indented on a new line sanitized_string = some_string |> String.downcase() |> String.trim()
While this is the preferred method, take into account that copy-pasting multiline pipelines into IEx might result in a syntax error, as IEx will evaluate the first line without realizing that the next line has a pipeline. To avoid this, you can wrap the pasted code in parentheses.
-
Avoid using the pipe operator just once. [link]
# not preferred some_string |> String.downcase() System.version() |> Version.parse() # preferred String.downcase(some_string) Version.parse(System.version())
-
Use bare variables in the first part of a function chain. [link]
# not preferred String.trim(some_string) |> String.downcase() |> String.codepoints() # preferred some_string |> String.trim() |> String.downcase() |> String.codepoints()
-
Use parentheses when a
def
has arguments, and omit them when it doesn't. [link]# not preferred def some_function arg1, arg2 do # body omitted end def some_function() do # body omitted end # preferred def some_function(arg1, arg2) do # body omitted end def some_function do # body omitted end
-
Use
do:
for single lineif/unless
statements. [link]# preferred if some_condition, do: # some_stuff
-
Never use
unless
withelse
. Rewrite these with the positive case first. [link]# not preferred unless success do IO.puts('failure') else IO.puts('success') end # preferred if success do IO.puts('success') else IO.puts('failure') end
-
Use
true
as the last condition of thecond
special form when you need a clause that always matches. [link]# not preferred cond do 1 + 2 == 5 -> "Nope" 1 + 3 == 5 -> "Uh, uh" :else -> "OK" end # preferred cond do 1 + 2 == 5 -> "Nope" 1 + 3 == 5 -> "Uh, uh" true -> "OK" end
-
Use parentheses for calls to functions with zero arity, so they can be distinguished from variables. Starting in Elixir 1.4, the compiler will warn you about locations where this ambiguity exists. [link]
defp do_stuff, do: ... # not preferred def my_func do # is this a variable or a function call? do_stuff end # preferred def my_func do # this is clearly a function call do_stuff() end
This guide follows the Naming Conventions from the Elixir docs,
including the use of snake_case
and CamelCase
to describe the casing
rules.
-
Use
snake_case
for atoms, functions and variables. [link]# not preferred :"some atom" :SomeAtom :someAtom someVar = 5 def someFunction do ... end # preferred :some_atom some_var = 5 def some_function do ... end
-
Use
CamelCase
for modules (keep acronyms like HTTP, RFC, XML uppercase). [link]# not preferred defmodule Somemodule do ... end defmodule Some_Module do ... end defmodule SomeXml do ... end # preferred defmodule SomeModule do ... end defmodule SomeXML do ... end
-
Functions that return a boolean (
true
orfalse
) should be named with a trailing question mark. [link]def cool?(var) do String.contains?(var, "cool") end
-
Boolean checks that can be used in guard clauses should be named with an
is_
prefix. For a list of allowed expressions, see the Guard docs. [link]defguard is_cool(var) when var == "cool" defguard is_very_cool(var) when var == "very cool"
-
Private functions should not have the same name as public functions. Also, the
def name
anddefp do_name
pattern is discouraged.Usually one can try to find more descriptive names focusing on the differences. [link]
def sum(list), do: sum_total(list, 0) # private functions defp sum_total([], total), do: total defp sum_total([head | tail], total), do: sum_total(tail, head + total)
-
Write expressive code and try to convey your program's intention through control-flow, structure and naming. [link]
-
Comments longer than a word are capitalized, and sentences use punctuation. Use one space after periods. [link]
# not preferred # these lowercase comments are missing punctuation # preferred # Capitalization example # Use punctuation for complete sentences.
-
Limit comment lines to 100 characters. [link]
-
Annotations should usually be written on the line immediately above the relevant code. [link]
-
The annotation keyword is uppercase, and is followed by a colon and a space, then a note describing the problem. [link]
# TODO: Deprecate in v1.5. def some_function(arg), do: {:ok, arg}
-
In cases where the problem is so obvious that any documentation would be redundant, annotations may be left with no note. This usage should be the exception and not the rule. [link]
start_task() # FIXME Process.sleep(5000)
-
Use
TODO
to note missing features or functionality that should be added at a later date. [link] -
Use
FIXME
to note broken code that needs to be fixed. [link] -
Use
OPTIMIZE
to note slow or inefficient code that may cause performance problems. [link] -
Use
HACK
to note code smells where questionable coding practices were used and should be refactored away. [link] -
Use
REVIEW
to note anything that should be looked at to confirm it is working as intended. For example:REVIEW: Are we sure this is how the client does X currently?
[link] -
Use other custom annotation keywords if it feels appropriate, but be sure to document them in your project's
README
or similar. [link]
-
Use one module per file unless the module is only used internally by another module (such as a test). [link]
-
Use
snake_case
file names forCamelCase
module names. [link]# file is called some_module.ex defmodule SomeModule do end
-
Represent each level of nesting within a module name as a directory. [link]
# file is called parser/core/xml_parser.ex defmodule Parser.Core.XMLParser do end
-
List module attributes, directives, and macros in the following order: [link]
@moduledoc
@behaviour
use
import
require
alias
@module_attribute
defstruct
@type
@callback
@macrocallback
@optional_callbacks
defmacro
,defmodule
,defguard
,def
, etc.
Add a blank line between each grouping, and sort the terms (like module names) alphabetically. Here's an overall example of how you should order things in your modules:
defmodule MyModule do @moduledoc """ An example module """ @behaviour MyBehaviour use GenServer import Something import SomethingElse require Integer alias My.Long.Module.Name alias My.Other.Module.Example @module_attribute :foo @other_attribute 100 defstruct [:name, params: []] @type params :: [{binary, binary}] @callback some_function(term) :: :ok | {:error, term} @macrocallback macro_name(term) :: Macro.t() @optional_callbacks macro_name: 1 @doc false defmacro __using__(_opts), do: :no_op @doc """ Determines when a term is `:ok`. Allowed in guards. """ defguard is_ok(term) when term == :ok @impl true def init(state), do: {:ok, state} # Define other functions here. end
-
Use the
__MODULE__
pseudo variable when a module refers to itself. This avoids having to update any self-references when the module name changes. [link]defmodule SomeProject.SomeModule do defstruct [:name] def name(%__MODULE__{name: name}), do: name end
-
If you want a prettier name for a module self-reference, set up an alias. [link]
defmodule SomeProject.SomeModule do alias __MODULE__, as: SomeModule defstruct [:name] def name(%SomeModule{name: name}), do: name end
-
Avoid repeating fragments in module names and namespaces. This improves overall readability and eliminates ambiguous aliases. [link]
# not preferred defmodule Todo.Todo do ... end # preferred defmodule Todo.Item do ... end
Documentation in Elixir (when read either in iex
with h
or generated with
ExDoc) uses the Module Attributes @moduledoc
and @doc
.
-
Always include a
@moduledoc
attribute in the line right afterdefmodule
in your module. [link]# not preferred defmodule AnotherModule do use SomeModule @moduledoc """ About the module """ ... end # preferred defmodule AThirdModule do @moduledoc """ About the module """ use SomeModule ... end
-
Use
@moduledoc false
if you do not intend on documenting the module. [link]defmodule SomeModule do @moduledoc false ... end
-
Separate code after the
@moduledoc
with a blank line. [link]# not preferred defmodule SomeModule do @moduledoc """ About the module """ use AnotherModule end # preferred defmodule SomeModule do @moduledoc """ About the module """ use AnotherModule end
-
Use heredocs with markdown for documentation. [link]
# not preferred defmodule SomeModule do @moduledoc "About the module" end defmodule SomeModule do @moduledoc """ About the module Examples: iex> SomeModule.some_function :result """ end # preferred defmodule SomeModule do @moduledoc """ About the module ## Examples iex> SomeModule.some_function :result """ end
Typespecs are notation for declaring types and specifications, for documentation or for the static analysis tool Dialyzer.
Custom types should be defined at the top of the module with the other directives (see Modules).
-
Place
@typedoc
and@type
definitions together, and separate each pair with a blank line. [link]defmodule SomeModule do @moduledoc false @typedoc "The name" @type name :: atom @typedoc "The result" @type result :: {:ok, term} | {:error, term} ... end
-
If a union type is too long to fit on a single line, put each part of the type on a separate line, indented one level past the name of the type. [link]
# not preferred @type long_union_type :: some_type | another_type | some_other_type | one_more_type | a_final_type # preferred @type long_union_type :: some_type | another_type | some_other_type | one_more_type | a_final_type
-
Name the main type for a module
t
, for example: the type specification for a struct. [link]defstruct [:name, params: []] @type t :: %__MODULE__{ name: String.t() | nil, params: Keyword.t() }
-
Place specifications right before the function definition, after the
@doc
, without separating them by a blank line. [link]@doc """ Some function description. """ @spec some_function(term) :: result def some_function(some_data) do {:ok, some_data} end
-
Use a list of atoms for struct fields that default to
nil
, followed by the other keywords. [link]# not preferred defstruct name: nil, params: nil, active: true # preferred defstruct [:name, :params, active: true]
-
Omit square brackets when the argument of a
defstruct
is a keyword list. [link]# not preferred defstruct [params: [], active: true] # preferred defstruct params: [], active: true # required - brackets are not optional, with at least one atom in the list defstruct [:name, params: [], active: true]
-
If a struct definition spans multiple lines, put each element on its own line, keeping the elements aligned. [link]
defstruct foo: "test", bar: true, baz: false, qux: false, quux: 1
If a multiline struct requires brackets, format it as a multiline list:
defstruct [ :name, params: [], active: true ]
-
Make exception names end with a trailing
Error
. [link]# not preferred defmodule BadHTTPCode do defexception [:message] end defmodule BadHTTPCodeException do defexception [:message] end # preferred defmodule BadHTTPCodeError do defexception [:message] end
-
Use lowercase error messages when raising exceptions, with no trailing punctuation. [link]
# not preferred raise ArgumentError, "This is not valid." # preferred raise ArgumentError, "this is not valid"
-
Always use the special syntax for keyword lists. [link]
# not preferred some_value = [{:a, "baz"}, {:b, "qux"}] # preferred some_value = [a: "baz", b: "qux"]
-
Use the shorthand key-value syntax for maps when all of the keys are atoms. [link]
# not preferred %{:a => 1, :b => 2, :c => 0} # preferred %{a: 1, b: 2, c: 3}
-
Use the verbose key-value syntax for maps if any key is not an atom. [link]
# not preferred %{"c" => 0, a: 1, b: 2} # preferred %{:a => 1, :b => 2, "c" => 0}
-
Match strings using the string concatenator rather than binary patterns: [link]
# not preferred <<"my"::utf8, _rest::bytes>> = "my string" # preferred "my" <> _rest = "my string"
No guidelines for regular expressions have been added yet.
- Avoid needless metaprogramming. [link]
-
When writing ExUnit assertions, put the expression being tested to the left of the operator, and the expected result to the right, unless the assertion is a pattern match. [link]
# preferred assert actual_function(1) == true # not preferred assert true == actual_function(1) # required - the assertion is a pattern match assert {:ok, expected} = actual_function(3)
-
Aleksei Magusev's Elixir Style Guide — An opinionated Elixir style guide stemming from the coding style practiced in the Elixir core libraries. Developed by Aleksei Magusev and Andrea Leopardi, members of Elixir core team. While the Elixir project doesn't adhere to any specific style guide, this is the closest available guide to its conventions.
-
Credo's Elixir Style Guide — Style Guide for the Elixir language, implemented by Credo static code analysis tool.
Refer to Awesome Elixir for libraries and tools that can help with code analysis and style linting.
It's our hope that this will become a central hub for community discussion on best practices in Elixir. Feel free to open tickets or send pull requests with improvements. Thanks in advance for your help!
Check the contributing guidelines for more information.
A community style guide is meaningless without the community's support. Please tweet, star, and let any Elixir programmer know about this guide so they can contribute.
This work is licensed under a Creative Commons Attribution 3.0 Unported License
The structure of this guide, bits of example code, and many of the initial points made in this document were borrowed from the Ruby community style guide. A lot of things were applicable to Elixir and allowed us to get some document out quicker to start the conversation.
Here's the list of people who have kindly contributed to this project.