View Source Writing Documentation
Elixir treats documentation as a first-class citizen. This means documentation should be easy to write and easy to read. In this document you will learn how to write documentation in Elixir, covering constructs like module attributes, style practices and doctests.
Markdown
Elixir documentation is written using Markdown. There are plenty of guides on Markdown online, we recommend the ones available at GitHub as a getting started point:
Module Attributes
Documentation in Elixir is usually attached to module attributes. Let's see an example:
defmodule MyApp.Hello do
@moduledoc """
This is the Hello module.
"""
@moduledoc since: "1.0.0"
@doc """
Says hello to the given `name`.
Returns `:ok`.
## Examples
iex> MyApp.Hello.world(:john)
:ok
"""
@doc since: "1.3.0"
def world(name) do
IO.puts("hello #{name}")
end
end
The @moduledoc
attribute is used to add documentation to the module. @doc
is used before a function to provide documentation for it. Besides the attributes above, @typedoc
can also be used to attach documentation to types defined as part of typespecs. Elixir also allows metadata to be attached to documentation, by passing a keyword list to @doc
and friends.
Function Arguments
When documenting a function, argument names are inferred by the compiler. For example:
def size(%{size: size}) do
size
end
The compiler will infer this argument as map
. Sometimes the inference will be suboptimal, especially if the function contains multiple clauses with the argument matching on different values each time. You can specify the proper names for documentation by declaring only the function head at any moment before the implementation:
def size(map_with_size)
def size(%{size: size}) do
size
end
Documentation metadata
Elixir allows developers to attach arbitrary metadata to the documentation. This is done by passing a keyword list to the relevant attribute (such as @moduledoc
, @typedoc
, and @doc
). A commonly used metadata is :since
, which annotates in which version that particular module, function, type, or callback was added, as shown in the example above.
Another common metadata is :deprecated
, which emits a warning in the documentation, explaining that its usage is discouraged:
@doc deprecated: "Use Foo.bar/2 instead"
Note the :deprecated
key does not warn when a developer invokes the functions. If you want the code to also emit a warning, you can use the @deprecated
attribute:
@deprecated "Use Foo.bar/2 instead"
Metadata can have any key. Documentation tools often use metadata to provide more data to readers and to enrich the user experience.
Recommendations
When writing documentation:
Keep the first paragraph of the documentation concise and simple, typically one-line. Tools like ExDoc use the first line to generate a summary.
Reference modules by their full name.
Markdown uses backticks (
`
) to quote code. Elixir builds on top of that to automatically generate links when module or function names are referenced. For this reason, always use full module names. If you have a module calledMyApp.Hello
, always reference it as`MyApp.Hello`
and never as`Hello`
.Reference functions by name and arity if they are local, as in
`world/1`
, or by module, name and arity if pointing to an external module:`MyApp.Hello.world/1`
.Reference a
@callback
by prependingc:
, as in`c:world/1`
.Reference a
@type
by prependingt:
, as in`t:values/0`
.Start new sections with second level Markdown headers
##
. First level headers are reserved for module and function names.Place documentation before the first clause of multi-clause functions. Documentation is always per function and arity and not per clause.
Use the
:since
key in the documentation metadata to annotate whenever new functions or modules are added to your API.
Doctests
We recommend that developers include examples in their documentation, often under their own ## Examples
heading. To ensure examples do not get out of date, Elixir's test framework (ExUnit) provides a feature called doctests that allows developers to test the examples in their documentation. Doctests work by parsing out code samples starting with iex>
from the documentation. You can read more about it at ExUnit.DocTest
.
Notice doctests have limitations. When you cannot doctest a function, because it relies on state or side-effects, we recommend developers include examples directly without the iex>
prompt.
Documentation != Code comments
Elixir treats documentation and code comments as different concepts. Documentation is an explicit contract between you and users of your Application Programming Interface (API), be them third-party developers, co-workers, or your future self. Modules and functions must always be documented if they are part of your API.
Code comments are aimed at developers reading the code. They are useful for marking improvements, leaving notes (for example, why you had to resort to a workaround due to a bug in a library), and so forth. They are tied to the source code: you can completely rewrite a function and remove all existing code comments, and it will continue to behave the same, with no change to either its behaviour or its documentation.
Because private functions cannot be accessed externally, Elixir will warn if a private function has a @doc
attribute and will discard its content. However, you can add code comments to private functions, as with any other piece of code, and we recommend developers to do so whenever they believe it will add relevant information to the readers and maintainers of such code.
Finally, beware of redundant code comments, such as the ones describing the exact same that the code does:
# Total is the sum of the batch and individual entries
total = batch_sum + individual_sum
In summary, documentation is a contract with users of your API, who may not necessarily have access to the source code; whereas code comments are for those who interact directly with the source. You can learn and express different guarantees about your software by separating those two concepts.
Hiding Internal Modules and Functions
Besides the modules and functions libraries provide as part of their public interface, libraries may also implement important functionality that is not part of their API. While these modules and functions can be accessed, they are meant to be internal to the library and thus should not have documentation for end users.
Conveniently, Elixir allows developers to hide modules and functions from the documentation, by setting @doc false
to hide a particular function, or @moduledoc false
to hide the whole module. If a module is hidden, you may even document the functions in the module, but the module itself won't be listed in the documentation:
defmodule MyApp.Hidden do
@moduledoc false
@doc """
This function won't be listed in docs.
"""
def function_that_wont_be_listed_in_docs do
# ...
end
end
However, keep in mind that adding @doc false
does not make the function private. The function above can still be invoked as MyApp.Sample.add(1, 2)
. Not only that, if MyApp.Sample
is imported, the add/2
function will also be imported into the caller. For those reasons, be cautious when adding @doc false
to functions, instead use one of these two options:
Move the undocumented function to a module with
@moduledoc false
, likeMyApp.Hidden
, ensuring the function won't be accidentally exposed or imported. Remember you can use@moduledoc false
to hide a whole module and still document each function with@doc
. Tools will still ignore the module.Start the function name with one or two underscores, for example,
__add__/2
, and add@doc false
. The compiler does not import functions with leading underscores and they hint to anyone reading the code of their intended private usage.
Code.fetch_docs/1
Elixir stores documentation inside pre-defined chunks in the bytecode. It can be accessed from Elixir by using the Code.fetch_docs/1
function. This also means documentation is only accessed when required and not when modules are loaded by the Virtual Machine. The only downside is that modules defined in-memory, like the ones defined in IEx, cannot have their documentation accessed as they do not have their bytecode written to disk.