% Rust Documentation `rustdoc` is the built-in tool for generating documentation. It integrates with the compiler to provide accurate hyperlinking between usage of types and their documentation. Furthermore, by not using a separate parser, it will never reject your valid Rust code. # Creating Documentation Documenting Rust APIs is quite simple. To document a given item, we have "doc comments": ~~~ // the "link" crate attribute is currently required for rustdoc, but normally // isn't needed. #[crate_id = "universe"]; #[crate_type="lib"]; //! Tools for dealing with universes (this is a doc comment, and is shown on //! the crate index page. The ! makes it apply to the parent of the comment, //! rather than what follows). /// Widgets are very common (this is a doc comment, and will show up on /// Widget's documentation). pub struct Widget { /// All widgets have a purpose (this is a doc comment, and will show up /// the field's documentation). purpose: ~str, /// Humans are not allowed to understand some widgets understandable: bool } pub fn recalibrate() { //! Recalibrate a pesky universe (this is also a doc comment, like above, //! the documentation will be applied to the *parent* item, so //! `recalibrate`). /* ... */ } ~~~ Doc comments are markdown, and are currently parsed with the [sundown][sundown] library. rustdoc does not yet do any fanciness such as referencing other items inline, like javadoc's `@see`. One exception to this is that the first paragrah will be used as the "summary" of an item in the generated documentation: ~~~ /// A whizbang. Does stuff. (this line is the summary) /// /// Whizbangs are ... struct Whizbang; ~~~ To generate the docs, run `rustdoc universe.rs`. By default, it generates a directory called `doc`, with the documentation for `universe` being in `doc/universe/index.html`. If you are using other crates with `extern mod`, rustdoc will even link to them when you use their types, as long as their documentation has already been generated by a previous run of rustdoc, or the crate advertises that its documentation is hosted at a given URL. The generated output can be controlled with the `doc` crate attribute, which is how the above advertisement works. An example from the `libstd` documentation: ~~~ #[doc(html_logo_url = "http://www.rust-lang.org/logos/rust-logo-128x128-blk.png", html_favicon_url = "http://www.rust-lang.org/favicon.ico", html_root_url = "http://static.rust-lang.org/doc/master")]; ~~~ The `html_root_url` is the prefix that rustdoc will apply to any references to that crate's types etc. rustdoc can also generate JSON, for consumption by other tools, with `rustdoc --output-format json`, and also consume already-generated JSON with `rustdoc --input-format json`. # Using the Documentation The web pages generated by rustdoc present the same logical heirarchy that one writes a library with. Every kind of item (function, struct, etc) has its own color, and one can always click on a colored type to jump to its documentation. There is a search bar at the top, which is powered by some javascript and a statically-generated search index. No special web server is required for the search. [sundown]: https://github.com/vmg/sundown/ # Testing the Documentation `rustdoc` has support for testing code examples which appear in the documentation. This is helpful for keeping code examples up to date with the source code. To test documentation, the `--test` argument is passed to rustdoc: ~~~ rustdoc --test crate.rs ~~~ ## Defining tests Rust documentation currently uses the markdown format, and code blocks can refer to any piece of code-related documentation, which isn't always rust. Because of this, only code blocks with the language of "rust" will be considered for testing. ~~~ ```rust // This is a testable code block ``` ``` // This is not a testable code block ``` // This is not a testable code block (4-space indent) ~~~ In addition to only testing "rust"-language code blocks, there are additional specifiers that can be used to dictate how a code block is tested: ~~~ ```rust,ignore // This code block is ignored by rustdoc, but is passed through to the test // harness ``` ```rust,should_fail // This code block is expected to generate a failure ``` ~~~ Rustdoc also supplies some extra sugar for helping with some tedious documentation examples. If a line is prefixed with `# `, then the line will not show up in the HTML documentation, but it will be used when testing the code block (NB. the space after the `#` is required, so that one can still write things like `#[deriving(Eq)]`). ~~~ ```rust # // showing 'fib' in this documentation would just be tedious and detracts from # // what's actualy being documented. # fn fib(n: int) { n + 2 } do spawn { fib(200); } ``` ~~~ The documentation online would look like `do spawn { fib(200); }`, but when testing this code, the `fib` function will be included (so it can compile). ## Running tests (advanced) Running tests often requires some special configuration to filter tests, find libraries, or try running ignored examples. The testing framework that rustdoc uses is build on `extra::test`, which is also used when you compile crates with rustc's `--test` flag. Extra arguments can be passed to rustdoc's test harness with the `--test-args` flag. ~~~ // Only run tests containing 'foo' in their name rustdoc --test lib.rs --test-args 'foo' // See what's possible when running tests rustdoc --test lib.rs --test-args '--help' // Run all ignored tests rustdoc --test lib.rs --test-args '--ignored' ~~~ When testing a library, code examples will often show how functions are used, and this code often requires `use`-ing paths from the crate. To accomodate this, rustdoc will implicitly add `extern mod ;` where `` is the name of the crate being tested to the top of each code example. This means that rustdoc must be able to find a compiled version of the library crate being tested. Extra search paths may be added via the `-L` flag to `rustdoc`.