reformat basically the whole rustdoc.md
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Mark Mansi
Who? Me?!
parent
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src/rustdoc.md
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src/rustdoc.md
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@ -1,7 +1,8 @@
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# The walking tour of rustdoc
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Rustdoc actually uses the rustc internals directly. It lives in-tree with the compiler and standard
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library. This chapter is about how it works. (A new implementation is also [under way], though).
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Rustdoc actually uses the rustc internals directly. It lives in-tree with the
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compiler and standard library. This chapter is about how it works. (A new
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implementation is also [under way], though).
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[under way]: https://github.com/steveklabnik/rustdoc
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@ -17,50 +18,57 @@ and [queries] are discussed in the linked chapters.
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`librustdoc` performs two major steps after that to render a set of
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documentation:
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* "Clean" the AST into a form that's more suited to creating documentation (and slightly more
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resistant to churn in the compiler).
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* "Clean" the AST into a form that's more suited to creating documentation (and
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slightly more resistant to churn in the compiler).
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* Use this cleaned AST to render a crate's documentation, one page at a time.
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Naturally, there's more than just this, and those descriptions simplify out lots of details, but
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that's the high-level overview.
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Naturally, there's more than just this, and those descriptions simplify out
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lots of details, but that's the high-level overview.
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(Side note: `librustdoc` is a library crate! The `rustdoc` binary is crated using the project in
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[`src/tools/rustdoc`][bin]. Note that literally all that does is call the `main()` that's in this crate's
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`lib.rs`, though.)
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(Side note: `librustdoc` is a library crate! The `rustdoc` binary is crated
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using the project in [`src/tools/rustdoc`][bin]. Note that literally all that
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does is call the `main()` that's in this crate's `lib.rs`, though.)
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[bin]: https://github.com/rust-lang/rust/tree/master/src/tools/rustdoc
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## Cheat sheet
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* Use `x.py build --stage 1 src/libstd src/tools/rustdoc` to make a useable rustdoc you can run on
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other projects.
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* Use `x.py build --stage 1 src/libstd src/tools/rustdoc` to make a useable
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rustdoc you can run on other projects.
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* Add `src/libtest` to be able to use `rustdoc --test`.
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* If you've used `rustup toolchain link local /path/to/build/$TARGET/stage1` previously, then
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after the previous build command, `cargo +local doc` will Just Work.
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* Use `x.py doc --stage 1 src/libstd` to use this rustdoc to generate the standard library docs.
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* The completed docs will be available in `build/$TARGET/doc/std`, though the bundle is meant to
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be used as though you would copy out the `doc` folder to a web server, since that's where the
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CSS/JS and landing page are.
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* Most of the HTML printing code is in `html/format.rs` and `html/render.rs`. It's in a bunch of
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`fmt::Display` implementations and supplementary functions.
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* The types that got `Display` impls above are defined in `clean/mod.rs`, right next to the custom
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`Clean` trait used to process them out of the rustc HIR.
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* If you've used `rustup toolchain link local /path/to/build/$TARGET/stage1`
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previously, then after the previous build command, `cargo +local doc` will
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Just Work.
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* Use `x.py doc --stage 1 src/libstd` to use this rustdoc to generate the
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standard library docs.
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* The completed docs will be available in `build/$TARGET/doc/std`, though the
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bundle is meant to be used as though you would copy out the `doc` folder to
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a web server, since that's where the CSS/JS and landing page are.
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* Most of the HTML printing code is in `html/format.rs` and `html/render.rs`.
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It's in a bunch of `fmt::Display` implementations and supplementary
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functions.
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* The types that got `Display` impls above are defined in `clean/mod.rs`, right
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next to the custom `Clean` trait used to process them out of the rustc HIR.
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* The bits specific to using rustdoc as a test harness are in `test.rs`.
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* The Markdown renderer is loaded up in `html/markdown.rs`, including functions for extracting
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doctests from a given block of Markdown.
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* The tests on rustdoc *output* are located in `src/test/rustdoc`, where they're handled by the test
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runner of rustbuild and the supplementary script `src/etc/htmldocck.py`.
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* Tests on search index generation are located in `src/test/rustdoc-js`, as a series of JavaScript
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files that encode queries on the standard library search index and expected results.
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* The Markdown renderer is loaded up in `html/markdown.rs`, including functions
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for extracting doctests from a given block of Markdown.
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* The tests on rustdoc *output* are located in `src/test/rustdoc`, where
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they're handled by the test runner of rustbuild and the supplementary script
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`src/etc/htmldocck.py`.
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* Tests on search index generation are located in `src/test/rustdoc-js`, as a
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series of JavaScript files that encode queries on the standard library search
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index and expected results.
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## From crate to clean
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In `core.rs` are two central items: the `DocContext` struct, and the `run_core` function. The latter
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is where rustdoc calls out to rustc to compile a crate to the point where rustdoc can take over. The
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former is a state container used when crawling through a crate to gather its documentation.
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In `core.rs` are two central items: the `DocContext` struct, and the `run_core`
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function. The latter is where rustdoc calls out to rustc to compile a crate to
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the point where rustdoc can take over. The former is a state container used
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when crawling through a crate to gather its documentation.
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The main process of crate crawling is done in `clean/mod.rs` through several implementations of the
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`Clean` trait defined within. This is a conversion trait, which defines one method:
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The main process of crate crawling is done in `clean/mod.rs` through several
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implementations of the `Clean` trait defined within. This is a conversion
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trait, which defines one method:
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```rust
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pub trait Clean<T> {
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@ -68,40 +76,47 @@ pub trait Clean<T> {
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}
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```
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`clean/mod.rs` also defines the types for the "cleaned" AST used later on to render documentation
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pages. Each usually accompanies an implementation of `Clean` that takes some AST or HIR type from
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rustc and converts it into the appropriate "cleaned" type. "Big" items like modules or associated
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items may have some extra processing in its `Clean` implementation, but for the most part these
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impls are straightforward conversions. The "entry point" to this module is the `impl Clean<Crate>
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for visit_ast::RustdocVisitor`, which is called by `run_core` above.
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`clean/mod.rs` also defines the types for the "cleaned" AST used later on to
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render documentation pages. Each usually accompanies an implementation of
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`Clean` that takes some AST or HIR type from rustc and converts it into the
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appropriate "cleaned" type. "Big" items like modules or associated items may
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have some extra processing in its `Clean` implementation, but for the most part
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these impls are straightforward conversions. The "entry point" to this module
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is the `impl Clean<Crate> for visit_ast::RustdocVisitor`, which is called by
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`run_core` above.
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You see, I actually lied a little earlier: There's another AST transformation that happens before
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the events in `clean/mod.rs`. In `visit_ast.rs` is the type `RustdocVisitor`, which *actually*
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crawls a `hir::Crate` to get the first intermediate representation, defined in `doctree.rs`. This
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pass is mainly to get a few intermediate wrappers around the HIR types and to process visibility
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and inlining. This is where `#[doc(inline)]`, `#[doc(no_inline)]`, and `#[doc(hidden)]` are
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processed, as well as the logic for whether a `pub use` should get the full page or a "Reexport"
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line in the module page.
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You see, I actually lied a little earlier: There's another AST transformation
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that happens before the events in `clean/mod.rs`. In `visit_ast.rs` is the
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type `RustdocVisitor`, which *actually* crawls a `hir::Crate` to get the first
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intermediate representation, defined in `doctree.rs`. This pass is mainly to
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get a few intermediate wrappers around the HIR types and to process visibility
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and inlining. This is where `#[doc(inline)]`, `#[doc(no_inline)]`, and
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`#[doc(hidden)]` are processed, as well as the logic for whether a `pub use`
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should get the full page or a "Reexport" line in the module page.
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The other major thing that happens in `clean/mod.rs` is the collection of doc comments and
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`#[doc=""]` attributes into a separate field of the Attributes struct, present on anything that gets
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hand-written documentation. This makes it easier to collect this documentation later in the process.
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The other major thing that happens in `clean/mod.rs` is the collection of doc
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comments and `#[doc=""]` attributes into a separate field of the Attributes
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struct, present on anything that gets hand-written documentation. This makes it
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easier to collect this documentation later in the process.
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The primary output of this process is a `clean::Crate` with a tree of Items which describe the
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publicly-documentable items in the target crate.
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The primary output of this process is a `clean::Crate` with a tree of Items
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which describe the publicly-documentable items in the target crate.
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### Hot potato
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Before moving on to the next major step, a few important "passes" occur over the documentation.
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These do things like combine the separate "attributes" into a single string and strip leading
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whitespace to make the document easier on the markdown parser, or drop items that are not public or
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deliberately hidden with `#[doc(hidden)]`. These are all implemented in the `passes/` directory, one
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file per pass. By default, all of these passes are run on a crate, but the ones regarding dropping
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private/hidden items can be bypassed by passing `--document-private-items` to rustdoc. Note that
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unlike the previous set of AST transformations, the passes happen on the _cleaned_ crate.
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Before moving on to the next major step, a few important "passes" occur over
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the documentation. These do things like combine the separate "attributes" into
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a single string and strip leading whitespace to make the document easier on the
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markdown parser, or drop items that are not public or deliberately hidden with
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`#[doc(hidden)]`. These are all implemented in the `passes/` directory, one
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file per pass. By default, all of these passes are run on a crate, but the ones
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regarding dropping private/hidden items can be bypassed by passing
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`--document-private-items` to rustdoc. Note that unlike the previous set of AST
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transformations, the passes happen on the _cleaned_ crate.
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(Strictly speaking, you can fine-tune the passes run and even add your own, but [we're trying to
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deprecate that][44136]. If you need finer-grain control over these passes, please let us know!)
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(Strictly speaking, you can fine-tune the passes run and even add your own, but
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[we're trying to deprecate that][44136]. If you need finer-grain control over
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these passes, please let us know!)
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[44136]: https://github.com/rust-lang/rust/issues/44136
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@ -116,9 +131,9 @@ Here is current (as of this writing) list of passes:
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markdown to like it. This is necessary because the convention for writing
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documentation is to provide a space between the `///` or `//!` marker and the
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text, and stripping that leading space will make the text easier to parse by
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the Markdown parser. (In the past, the markdown parser used was not Commonmark-
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compliant, which caused annoyances with extra whitespace but this seems to be
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less of an issue today.)
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the Markdown parser. (In the past, the markdown parser used was not
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Commonmark- compliant, which caused annoyances with extra whitespace but this
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seems to be less of an issue today.)
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- `strip-priv-imports` strips all private import statements (`use`, `extern
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crate`) from a crate. This is necessary because rustdoc will handle *public*
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imports by either inlining the item's documentation to the module or creating
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@ -130,85 +145,101 @@ Here is current (as of this writing) list of passes:
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## From clean to crate
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This is where the "second phase" in rustdoc begins. This phase primarily lives in the `html/`
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folder, and it all starts with `run()` in `html/render.rs`. This code is responsible for setting up
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the `Context`, `SharedContext`, and `Cache` which are used during rendering, copying out the static
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files which live in every rendered set of documentation (things like the fonts, CSS, and JavaScript
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that live in `html/static/`), creating the search index, and printing out the source code rendering,
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before beginning the process of rendering all the documentation for the crate.
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This is where the "second phase" in rustdoc begins. This phase primarily lives
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in the `html/` folder, and it all starts with `run()` in `html/render.rs`. This
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code is responsible for setting up the `Context`, `SharedContext`, and `Cache`
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which are used during rendering, copying out the static files which live in
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every rendered set of documentation (things like the fonts, CSS, and JavaScript
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that live in `html/static/`), creating the search index, and printing out the
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source code rendering, before beginning the process of rendering all the
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documentation for the crate.
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Several functions implemented directly on `Context` take the `clean::Crate` and set up some state
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between rendering items or recursing on a module's child items. From here the "page rendering"
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begins, via an enormous `write!()` call in `html/layout.rs`. The parts that actually generate HTML
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from the items and documentation occurs within a series of `std::fmt::Display` implementations and
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functions that pass around a `&mut std::fmt::Formatter`. The top-level implementation that writes
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out the page body is the `impl<'a> fmt::Display for Item<'a>` in `html/render.rs`, which switches
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out to one of several `item_*` functions based on the kind of `Item` being rendered.
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Several functions implemented directly on `Context` take the `clean::Crate` and
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set up some state between rendering items or recursing on a module's child
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items. From here the "page rendering" begins, via an enormous `write!()` call
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in `html/layout.rs`. The parts that actually generate HTML from the items and
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documentation occurs within a series of `std::fmt::Display` implementations and
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functions that pass around a `&mut std::fmt::Formatter`. The top-level
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implementation that writes out the page body is the `impl<'a> fmt::Display for
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Item<'a>` in `html/render.rs`, which switches out to one of several `item_*`
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functions based on the kind of `Item` being rendered.
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Depending on what kind of rendering code you're looking for, you'll probably find it either in
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`html/render.rs` for major items like "what sections should I print for a struct page" or
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`html/format.rs` for smaller component pieces like "how should I print a where clause as part of
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some other item".
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Depending on what kind of rendering code you're looking for, you'll probably
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find it either in `html/render.rs` for major items like "what sections should I
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print for a struct page" or `html/format.rs` for smaller component pieces like
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"how should I print a where clause as part of some other item".
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Whenever rustdoc comes across an item that should print hand-written documentation alongside, it
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calls out to `html/markdown.rs` which interfaces with the Markdown parser. This is exposed as a
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series of types that wrap a string of Markdown, and implement `fmt::Display` to emit HTML text. It
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takes special care to enable certain features like footnotes and tables and add syntax highlighting
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to Rust code blocks (via `html/highlight.rs`) before running the Markdown parser. There's also a
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function in here (`find_testable_code`) that specifically scans for Rust code blocks so the
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Whenever rustdoc comes across an item that should print hand-written
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documentation alongside, it calls out to `html/markdown.rs` which interfaces
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with the Markdown parser. This is exposed as a series of types that wrap a
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string of Markdown, and implement `fmt::Display` to emit HTML text. It takes
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special care to enable certain features like footnotes and tables and add
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syntax highlighting to Rust code blocks (via `html/highlight.rs`) before
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running the Markdown parser. There's also a function in here
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(`find_testable_code`) that specifically scans for Rust code blocks so the
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test-runner code can find all the doctests in the crate.
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### From soup to nuts
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(alternate title: ["An unbroken thread that stretches from those first `Cell`s to us"][video])
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(alternate title: ["An unbroken thread that stretches from those first `Cell`s
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to us"][video])
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[video]: https://www.youtube.com/watch?v=hOLAGYmUQV0
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It's important to note that the AST cleaning can ask the compiler for information (crucially,
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`DocContext` contains a `TyCtxt`), but page rendering cannot. The `clean::Crate` created within
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`run_core` is passed outside the compiler context before being handed to `html::render::run`. This
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means that a lot of the "supplementary data" that isn't immediately available inside an item's
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definition, like which trait is the `Deref` trait used by the language, needs to be collected during
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cleaning, stored in the `DocContext`, and passed along to the `SharedContext` during HTML rendering.
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This manifests as a bunch of shared state, context variables, and `RefCell`s.
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It's important to note that the AST cleaning can ask the compiler for
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information (crucially, `DocContext` contains a `TyCtxt`), but page rendering
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cannot. The `clean::Crate` created within `run_core` is passed outside the
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compiler context before being handed to `html::render::run`. This means that a
|
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lot of the "supplementary data" that isn't immediately available inside an
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item's definition, like which trait is the `Deref` trait used by the language,
|
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needs to be collected during cleaning, stored in the `DocContext`, and passed
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along to the `SharedContext` during HTML rendering. This manifests as a bunch
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of shared state, context variables, and `RefCell`s.
|
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|
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Also of note is that some items that come from "asking the compiler" don't go directly into the
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`DocContext` - for example, when loading items from a foreign crate, rustdoc will ask about trait
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implementations and generate new `Item`s for the impls based on that information. This goes directly
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into the returned `Crate` rather than roundabout through the `DocContext`. This way, these
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implementations can be collected alongside the others, right before rendering the HTML.
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Also of note is that some items that come from "asking the compiler" don't go
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directly into the `DocContext` - for example, when loading items from a foreign
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crate, rustdoc will ask about trait implementations and generate new `Item`s
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for the impls based on that information. This goes directly into the returned
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`Crate` rather than roundabout through the `DocContext`. This way, these
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implementations can be collected alongside the others, right before rendering
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the HTML.
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## Other tricks up its sleeve
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All this describes the process for generating HTML documentation from a Rust crate, but there are
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couple other major modes that rustdoc runs in. It can also be run on a standalone Markdown file, or
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it can run doctests on Rust code or standalone Markdown files. For the former, it shortcuts straight
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to `html/markdown.rs`, optionally including a mode which inserts a Table of Contents to the output
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HTML.
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All this describes the process for generating HTML documentation from a Rust
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crate, but there are couple other major modes that rustdoc runs in. It can also
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be run on a standalone Markdown file, or it can run doctests on Rust code or
|
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standalone Markdown files. For the former, it shortcuts straight to
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`html/markdown.rs`, optionally including a mode which inserts a Table of
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Contents to the output HTML.
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For the latter, rustdoc runs a similar partial-compilation to get relevant documentation in
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`test.rs`, but instead of going through the full clean and render process, it runs a much simpler
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crate walk to grab *just* the hand-written documentation. Combined with the aforementioned
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"`find_testable_code`" in `html/markdown.rs`, it builds up a collection of tests to run before
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handing them off to the libtest test runner. One notable location in `test.rs` is the function
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`make_test`, which is where hand-written doctests get transformed into something that can be
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executed.
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For the latter, rustdoc runs a similar partial-compilation to get relevant
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documentation in `test.rs`, but instead of going through the full clean and
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render process, it runs a much simpler crate walk to grab *just* the
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hand-written documentation. Combined with the aforementioned
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"`find_testable_code`" in `html/markdown.rs`, it builds up a collection of
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tests to run before handing them off to the libtest test runner. One notable
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location in `test.rs` is the function `make_test`, which is where hand-written
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doctests get transformed into something that can be executed.
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Some extra reading about `make_test` can be found
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[here](https://quietmisdreavus.net/code/2018/02/23/how-the-doctests-get-made/).
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## Dotting i's and crossing t's
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So that's rustdoc's code in a nutshell, but there's more things in the repo that deal with it. Since
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we have the full `compiletest` suite at hand, there's a set of tests in `src/test/rustdoc` that make
|
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sure the final HTML is what we expect in various situations. These tests also use a supplementary
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script, `src/etc/htmldocck.py`, that allows it to look through the final HTML using XPath notation
|
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to get a precise look at the output. The full description of all the commands available to rustdoc
|
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tests is in `htmldocck.py`.
|
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So that's rustdoc's code in a nutshell, but there's more things in the repo
|
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that deal with it. Since we have the full `compiletest` suite at hand, there's
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a set of tests in `src/test/rustdoc` that make sure the final HTML is what we
|
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expect in various situations. These tests also use a supplementary script,
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`src/etc/htmldocck.py`, that allows it to look through the final HTML using
|
||||
XPath notation to get a precise look at the output. The full description of all
|
||||
the commands available to rustdoc tests is in `htmldocck.py`.
|
||||
|
||||
In addition, there are separate tests for the search index and rustdoc's ability to query it. The
|
||||
files in `src/test/rustdoc-js` each contain a different search query and the expected results,
|
||||
broken out by search tab. These files are processed by a script in `src/tools/rustdoc-js` and the
|
||||
Node.js runtime. These tests don't have as thorough of a writeup, but a broad example that features
|
||||
results in all tabs can be found in `basic.js`. The basic idea is that you match a given `QUERY`
|
||||
with a set of `EXPECTED` results, complete with the full item path of each item.
|
||||
In addition, there are separate tests for the search index and rustdoc's
|
||||
ability to query it. The files in `src/test/rustdoc-js` each contain a
|
||||
different search query and the expected results, broken out by search tab.
|
||||
These files are processed by a script in `src/tools/rustdoc-js` and the Node.js
|
||||
runtime. These tests don't have as thorough of a writeup, but a broad example
|
||||
that features results in all tabs can be found in `basic.js`. The basic idea is
|
||||
that you match a given `QUERY` with a set of `EXPECTED` results, complete with
|
||||
the full item path of each item.
|
||||
|
|
|
|||
Loading…
Reference in New Issue