View Source ExDoc
ExDoc is a tool to generate documentation for Erlang and Elixir projects. To see an example, you can access Elixir's official docs.
Features
ExDoc ships with many features:
- Automatically generates online- and offline-accessible HTML and EPUB documents from your API documentation.
- Responsive design, covering phones and tablets.
- Support for custom pages, guides, livebooks and cheatsheets.
- Support for custom grouping of modules, functions, and pages in the sidebar.
- Customizable logo.
- A direct link back to the source code for every documented entity.
- Full-text search.
- Keyboard shortcuts. (Press
?
to show help.) - Quick-search with autocompletion support. (
s
keyboard shortcut.) - Go-to shortcut with auto-complete to take the reader to any HexDocs package documentation. (
g
keyboard shortcut.) - Support for night mode, activated according to the browser preference.
- Tooltips for links to modules and functions, both for the current project and other projects.
- Version dropdown, automatically configured when hosted on HexDocs.
Usage
You can use ExDoc with Mix (recommended for Elixir projects), with Rebar (recommended for Erlang projects), or via the command line.
Mix
ExDoc requires Elixir v1.12 or later. Then add ExDoc as a dependency:
def deps do
[
{:ex_doc, "~> 0.31", only: :dev, runtime: false},
]
end
Then run mix deps.get
.
Erlang development environment
Some Operating System distributions split Erlang into multiple packages, and at least one ExDoc dependency (
earmark_parser
) requires the Erlang development environment. If you see a message like "/usr/lib/erlang/lib/parsetools-2.3.1/include/yeccpre.hrl: no such file or directory", it means you lack this environment. For instance, on the Debian operating system and its derivatives, you need toapt install erlang-dev
.
ExDoc will automatically pull in information from your projects, such as the application and version. However, you may want to set :name
, :source_url
and :homepage_url
in order to have nicer output from ExDoc:
def project do
[
app: :my_app,
version: "0.1.0-dev",
deps: deps(),
# Docs
name: "MyApp",
source_url: "https://github.com/USER/PROJECT",
homepage_url: "http://YOUR_PROJECT_HOMEPAGE",
docs: [
main: "MyApp", # The main page in the docs
logo: "path/to/logo.png",
extras: ["README.md"]
]
]
end
Now you are ready to generate your project documentation with mix docs
. To see all options available, run mix help docs
.
To learn about how to document your projects, see Elixir's writing documentation page.
Rebar3
From Erlang/OTP 24+, you can use ExDoc to render your Erlang documentation written with EDoc. See rebar3_ex_doc
for more information.
CLI
You can use ExDoc via the command line.
Install ExDoc as an escript:
$ mix escript.install hex ex_doc
Now you are ready to use it in your projects. Move into your project directory and make sure it's compiled:
$ cd PATH_TO_YOUR_PROJECT $ mix compile
Invoke the
ex_doc
executable from your project:$ ex_doc "PROJECT_NAME" "PROJECT_VERSION" _build/dev/lib/project/ebin -m "PROJECT_MODULE" -u "https://github.com/GITHUB_USER/GITHUB_REPO" -l path/to/logo.png
Examples of appropriate values:
PROJECT_NAME => Ecto PROJECT_VERSION => 0.1.0 PROJECT_MODULE => Ecto (the main module provided by the library) GITHUB_USER => elixir-lang GITHUB_REPO => ecto
You can specify a config file via the --config
option, both Elixir and Erlang formats are supported. Invoke ex_doc
without arguments to learn more.
Syntax highlighting
ExDoc uses the makeup project for syntax highlighting. By default, highlighters for Erlang and Elixir are included. To syntax-highlight other languages, simply add the equivalent makeup_LANGUAGE
package to your mix.exs
/rebar.config
file. For example, for HTML support you would add:
Elixir (Mix)
{:makeup_html, ">= 0.0.0", only: :dev, runtime: false}
Erlang (Rebar3)
{makeup_html, "0.1.1"}
You can find all supported languages under the Makeup organization on GitHub and view them at Makeup's website.
Additional pages
You can publish additional pages in your project documentation by configuring them as :extras
. The following formats and extensions are supported:
Markdown (
.md
extension) - useful for general long-term text. Learn more.Cheatsheets (
.cheatmd
extension) - useful for discovery and quick reference. Learn more.Livebooks (
.livemd
extension) - useful for tutorials, interactive examples, and deep dives. Learn more.
For example, you can set your :extras
to:
Elixir
extras: ["README.md", "LICENSE", "tutorial.livemd", "cheatsheet.cheatmd"]
Run mix help docs
for more information on configuration.
Erlang
{extras, [<<"README.md">>, <<"cheatsheet.cheatmd">>]}.
Metadata
ExDoc supports metadata keys in your documentation.
Elixir
In Elixir, you can add metadata to modules and functions.
For a module, use @moduledoc
, which is equivalent to adding the annotation to everything inside the module (functions, macros, callbacks, types):
@moduledoc since: "1.10.0"
For a function, use @doc
:
@doc since: "1.13.1"
Erlang
In Erlang's EDoc:
%% @since 0.1.0
The following metadata is available for both modules and functions:
deprecated
(binary) - marks a module/function as deprecated, with the given string as the reason.since
(binary) - declares a module/function available from a particular version.
The following metadata is available for modules:
tags
(list of atoms) - a list of strings to be added as tags to the module. (Not supported by EDoc.)
Auto-linking
ExDoc for Elixir and Erlang will automatically generate links across modules and functions if you enclose them in backticks.
Elixir
ExDoc will automatically link modules, functions, types or callbacks defined in your project and its dependencies (including Erlang and Elixir). ExDoc will automatically link to it at the dependency's documentation at hexdocs.pm. The link can be configured by setting docs: [deps: [my_dep: "https://path/to/docs/"]]
in your mix.exs
.
ExDoc supports linking to modules (`MyModule`
and `m:MyModule`
), functions (`MyModule.function/1`
), types (`t:MyModule.type/2`
) and callbacks (`c:MyModule.callback/3`
). If you want to link a function, type or callback in the current module, you may skip the module name, for example: `function/1`
.
You can also use custom text, such as [custom text](`MyModule.function/1`)
. Link to extra pages using the syntax [Up and running](Up and running.md)
. The final link will be automatically converted to up-and-running.html
.
Link to extra pages in another application using the syntax [Writing Documentation](`e:elixir:writing-documentation.html`)
, skipping the directory in which the page is. The final link will be automatically converted to https://hexdocs.pm/elixir/writing-documentation.html
.
It is also possible to place anchors after the module name and extra pages. For example:
`m:Keyword#module-duplicate-keys-and-ordering`
will create a link tohttps://hexdocs.pm/elixir/Keyword.html#module-duplicate-keys-and-ordering
`e:elixir:syntax-reference.md#expressions`
will create a link tohttps://hexdocs.pm/elixir/syntax-reference.html#expressions
Erlang
ExDoc will automatically link modules, functions, types or callbacks defined in your project and its dependencies (including Erlang and Elixir). ExDoc will automatically link to it at the dependency's documentation at hexdocs.pm. The link can be configured by setting docs: [deps: [my_dep: "https://path/to/docs/"]]
in your mix.exs
. The link can be configured by setting {docs, [{deps, [{my_dep, "https://path/to/docs/"}]}]}
in your rebar3.config
.
ExDoc supports linking to modules (`m:my_module`
), functions (`my_module:function/1`
), types (`t:my_module:type/2`
) and callbacks (`c:my_module:callback/3`
). If you want to link a function, type or callback in the current module, you may skip the module name; e.g.: `function/1`
.
You can also use custom text, such as [custom text](`my_module:function/1`)
. This also allows you to refer to Erlang/OTP modules: [The array module](`array`)
(note that when a module is given as the link target, it is not necessary nor possible to use the m:
prefix).
Link to extra pages using the syntax [Up and running](Up and running.md)
. The final link will be automatically converted to up-and-running.html
.
Link to extra pages in another application using the syntax [Using unicode](`e:stdlib:unicode_usage.html`)
, skipping the directory in which the page is. The final link will be automatically converted to https://hexdocs.pm/elixir/writing-documentation.html
.
It is also possible to place anchors after the module name and extra pages. For example:
`m:argparse#quick-start`
will create a link tohttps://erlang.org/doc/man/argparse#quick-start
`e:stdlib:unicode-usage.md#what-unicode-is`
will create a link tohttps://erlang.org/doc/apps/stdlib/unicode-usage.html#what-unicode-is
Admonition blocks
You may want to draw attention to certain statements by taking them out of the content's flow and labeling them with a priority. Such statements are called admonitions. (They are also known as asides or callouts.) An admonition block is rendered based on the assigned label or class. ExDoc supports warning
, error
, info
, tip
and neutral
tags, on header levels h3
and h4
.
The syntax is as follows:
> #### Error {: .error}
>
> This syntax will render an error block
The result for the previous syntax is:
Error
This syntax will render an error block
For example, if you change the class name to neutral
, you get the same admonition block in neutral style:
Neutral
This syntax will render a neutral block
Tabsets
Where only one section of content of a series is likely to apply to the reader, you may wish to define a set of tabs.
This example contains code blocks, separating them into tabs based on language:
Elixir
IO.puts "Hello, world!"
Erlang
io:fwrite("Hello, world!\n").
Tabbed content must be defined between <!-- tabs-open -->
and <!-- tabs-close -->
HTML comments. Each h3
heading results in a new tab panel, with its text setting the tab button label.
Here is the above example's source:
<!-- tabs-open -->
### Elixir
```elixir
IO.puts "Hello, world!"
```
### Erlang
```erlang
io:fwrite("hello, world!\n").
```
<!-- tabs-close -->
Extensions
ExDoc renders Markdown content for you, but you can extend it to render complex objects on the page using JavaScript. To inject custom JavaScript into every page, add this to your configuration:
docs: [
# ...
before_closing_head_tag: &before_closing_head_tag/1,
before_closing_body_tag: &before_closing_body_tag/1
]
# ...
defp before_closing_head_tag(:html) do
"""
<!-- HTML injected at the end of the <head> element -->
"""
end
defp before_closing_head_tag(:epub), do: ""
defp before_closing_body_tag(:html) do
"""
<!-- HTML injected at the end of the <body> element -->
"""
end
defp before_closing_body_tag(:epub), do: ""
Besides an anonymous function, you can also pass a module-function-args
tuple. It will call the given module and function, with the format prefixed to the arguments:
docs: [
# ...
before_closing_head_tag: {MyModule, :before_closing_head_tag, []},
before_closing_body_tag: {MyModule, :before_closing_body_tag, []}
]
Or you can pass a map where the key is the format:
docs: [
# ...
before_closing_head_tag: %{html: "...", epub: "..."},
before_closing_body_tag: %{html: "...", epub: "..."}
]
Rendering Math
If you write TeX-style math in your Markdown, such as $\sum_{i}^{N} x_i$
, it ends up as raw text on the generated pages. To render expressions, we recommend using KaTeX, a JavaScript library that turns expressions into graphics. To load and trigger KaTeX on every documentation page, we can insert the following HTML:
<link rel="stylesheet" href="https://cdn.jsdelivr.net/npm/katex@0.16.4/dist/katex.min.css" integrity="sha384-vKruj+a13U8yHIkAyGgK1J3ArTLzrFGBbBc0tDp4ad/EyewESeXE/Iv67Aj8gKZ0" crossorigin="anonymous">
<script defer src="https://cdn.jsdelivr.net/npm/katex@0.16.4/dist/katex.min.js" integrity="sha384-PwRUT/YqbnEjkZO0zZxNqcxACrXe+j766U2amXcgMg5457rve2Y7I6ZJSm2A0mS4" crossorigin="anonymous"></script>
<link href="https://cdn.jsdelivr.net/npm/katex-copytex@1.0.2/dist/katex-copytex.min.css" rel="stylesheet" type="text/css">
<script src="https://cdn.jsdelivr.net/npm/katex-copytex@1.0.2/dist/katex-copytex.min.js" crossorigin="anonymous"></script>
<script defer src="https://cdn.jsdelivr.net/npm/katex@0.16.4/dist/contrib/auto-render.min.js" integrity="sha384-+VBxd3r6XgURycqtZ117nYw44OOcIax56Z4dCRWbxyPt0Koah1uHoK0o4+/RRE05" crossorigin="anonymous"
onload="renderMathInElement(document.body, {
delimiters: [
{left: '$$', right: '$$', display: true},
{left: '$', right: '$', display: false},
]
});"></script>
</script>
For more details and configuration options, see the KaTeX Auto-render Extension.
Rendering Vega-Lite plots
Snippets are also objects you may want to render in a special manner. For example, assuming your Markdown includes Vega-Lite specification in vega-lite
code snippets:
<script src="https://cdn.jsdelivr.net/npm/vega@5.20.2"></script>
<script src="https://cdn.jsdelivr.net/npm/vega-lite@5.1.1"></script>
<script src="https://cdn.jsdelivr.net/npm/vega-embed@6.18.2"></script>
<script>
document.addEventListener("DOMContentLoaded", function () {
for (const codeEl of document.querySelectorAll("pre code.vega-lite")) {
try {
const preEl = codeEl.parentElement;
const spec = JSON.parse(codeEl.textContent);
const plotEl = document.createElement("div");
preEl.insertAdjacentElement("afterend", plotEl);
vegaEmbed(plotEl, spec);
preEl.remove();
} catch (error) {
console.log("Failed to render Vega-Lite plot: " + error)
}
}
});
</script>
For more details and configuration options, see vega/vega-embed.
Rendering Mermaid graphs
Similarly to the example above, if your Markdown includes Mermaid graph specification in mermaid
code snippets:
<script src="https://cdn.jsdelivr.net/npm/mermaid@10.2.3/dist/mermaid.min.js"></script>
<script>
document.addEventListener("DOMContentLoaded", function () {
mermaid.initialize({
startOnLoad: false,
theme: document.body.className.includes("dark") ? "dark" : "default"
});
let id = 0;
for (const codeEl of document.querySelectorAll("pre code.mermaid")) {
const preEl = codeEl.parentElement;
const graphDefinition = codeEl.textContent;
const graphEl = document.createElement("div");
const graphId = "mermaid-graph-" + id++;
mermaid.render(graphId, graphDefinition).then(({svg, bindFunctions}) => {
graphEl.innerHTML = svg;
bindFunctions?.(graphEl);
preEl.insertAdjacentElement("afterend", graphEl);
preEl.remove();
});
}
});
</script>
For more details and configuration options, see the Mermaid usage docs.
Contributing
The easiest way to test changes to ExDoc is to locally rebuild the app and its own documentation:
- Run
mix setup
to install all dependencies. - Run
mix build
to generate the docs. This is a custom alias that will build assets, recompile ExDoc, and output fresh docs into thedoc/
directory. - If working on the assets, you may wish to run the assets build script in watch mode:
npm run --prefix assets build:watch
. - Run
mix lint
to check if the Elixir and JavaScript files are properly formatted. You can runmix fix
to let the JavaScript linter and Elixir formatter fix the code automatically before submitting your pull request. - Please do not add the files generated in the
formatters/
directory to your commits. These will be handled as necessary by the repository maintainers.
See the README in the assets/
directory for more information on working on the assets.
License
ExDoc source code is released under the Apache 2 License. The generated contents, however, are under different licenses based on projects used to help render HTML, including CSS, JS, and other assets.
Any documentation generated by ExDoc, or any documentation generated by any "Derivative Works" (as specified in the Apache 2 License), must include a direct, readable, and visible link to the ExDoc repository on each rendered material. For HTML pages, every single page is a rendered material. For PDF, EPUB and other ebook formats, the whole body of documentation is a rendered material.