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use rustc_middle::ty::TyCtxt;
use rustc_span::Symbol;
use crate::clean;
use crate::config::RenderOptions;
use crate::error::Error;
use crate::formats::cache::Cache;
/// Allows for different backends to rustdoc to be used with the `run_format()` function. Each
/// backend renderer has hooks for initialization, documenting an item, entering and exiting a
/// module, and cleanup/finalizing output.
pub(crate) trait FormatRenderer<'tcx>: Sized {
/// Gives a description of the renderer. Used for performance profiling.
fn descr() -> &'static str;
/// Whether to call `item` recursively for modules
///
/// This is true for html, and false for json. See #80664
const RUN_ON_MODULE: bool;
/// Sets up any state required for the renderer. When this is called the cache has already been
/// populated.
fn init(
krate: clean::Crate,
options: RenderOptions,
cache: Cache,
tcx: TyCtxt<'tcx>,
) -> Result<(Self, clean::Crate), Error>;
/// Make a new renderer to render a child of the item currently being rendered.
fn make_child_renderer(&self) -> Self;
/// Renders a single non-module item. This means no recursive sub-item rendering is required.
fn item(&mut self, item: clean::Item) -> Result<(), Error>;
/// Renders a module (should not handle recursing into children).
fn mod_item_in(&mut self, item: &clean::Item) -> Result<(), Error>;
/// Runs after recursively rendering all sub-items of a module.
fn mod_item_out(&mut self) -> Result<(), Error> {
Ok(())
}
/// Post processing hook for cleanup and dumping output to files.
fn after_krate(&mut self) -> Result<(), Error>;
fn cache(&self) -> &Cache;
}
/// Main method for rendering a crate.
pub(crate) fn run_format<'tcx, T: FormatRenderer<'tcx>>(
krate: clean::Crate,
options: RenderOptions,
cache: Cache,
tcx: TyCtxt<'tcx>,
) -> Result<(), Error> {
let prof = &tcx.sess.prof;
let emit_crate = options.should_emit_crate();
let (mut format_renderer, krate) = prof
.verbose_generic_activity_with_arg("create_renderer", T::descr())
.run(|| T::init(krate, options, cache, tcx))?;
if !emit_crate {
return Ok(());
}
// Render the crate documentation
let mut work = vec![(format_renderer.make_child_renderer(), krate.module)];
let unknown = Symbol::intern("<unknown item>");
while let Some((mut cx, item)) = work.pop() {
if item.is_mod() && T::RUN_ON_MODULE {
// modules are special because they add a namespace. We also need to
// recurse into the items of the module as well.
let _timer =
prof.generic_activity_with_arg("render_mod_item", item.name.unwrap().to_string());
cx.mod_item_in(&item)?;
let (clean::StrippedItem(box clean::ModuleItem(module)) | clean::ModuleItem(module)) =
*item.kind
else {
unreachable!()
};
for it in module.items {
debug!("Adding {:?} to worklist", it.name);
work.push((cx.make_child_renderer(), it));
}
cx.mod_item_out()?;
// FIXME: checking `item.name.is_some()` is very implicit and leads to lots of special
// cases. Use an explicit match instead.
} else if item.name.is_some() && !item.is_extern_crate() {
prof.generic_activity_with_arg("render_item", item.name.unwrap_or(unknown).as_str())
.run(|| cx.item(item))?;
}
}
prof.verbose_generic_activity_with_arg("renderer_after_krate", T::descr())
.run(|| format_renderer.after_krate())
}