| use rustc_data_structures::captures::Captures; |
| use rustc_data_structures::fx::{FxHashMap, FxHashSet}; |
| use rustc_hir as hir; |
| use rustc_hir::def::CtorKind; |
| use rustc_hir::def_id::DefId; |
| use rustc_index::IndexVec; |
| use rustc_middle::ty::{self, TyCtxt}; |
| use rustc_span::hygiene::MacroKind; |
| use rustc_span::symbol::{kw, sym, Symbol}; |
| use rustc_target::abi::VariantIdx; |
| use std::cell::{RefCell, RefMut}; |
| use std::cmp::Ordering; |
| use std::fmt; |
| use std::rc::Rc; |
| |
| use super::type_layout::document_type_layout; |
| use super::{ |
| collect_paths_for_type, document, ensure_trailing_slash, get_filtered_impls_for_reference, |
| item_ty_to_section, notable_traits_button, notable_traits_json, render_all_impls, |
| render_assoc_item, render_assoc_items, render_attributes_in_code, render_attributes_in_pre, |
| render_impl, render_rightside, render_stability_since_raw, |
| render_stability_since_raw_with_extra, write_section_heading, AssocItemLink, AssocItemRender, |
| Context, ImplRenderingParameters, RenderMode, |
| }; |
| use crate::clean; |
| use crate::config::ModuleSorting; |
| use crate::formats::item_type::ItemType; |
| use crate::formats::Impl; |
| use crate::html::escape::Escape; |
| use crate::html::format::{ |
| display_fn, join_with_double_colon, print_abi_with_space, print_constness_with_space, |
| print_where_clause, visibility_print_with_space, Buffer, Ending, PrintWithSpace, |
| }; |
| use crate::html::highlight; |
| use crate::html::markdown::{HeadingOffset, MarkdownSummaryLine}; |
| use crate::html::render::{document_full, document_item_info}; |
| use crate::html::url_parts_builder::UrlPartsBuilder; |
| |
| use askama::Template; |
| use itertools::Itertools; |
| |
| /// Generates an Askama template struct for rendering items with common methods. |
| /// |
| /// Usage: |
| /// ```ignore (illustrative) |
| /// item_template!( |
| /// #[template(path = "<template.html>", /* additional values */)] |
| /// /* additional meta items */ |
| /// struct MyItem<'a, 'cx> { |
| /// cx: RefCell<&'a mut Context<'cx>>, |
| /// it: &'a clean::Item, |
| /// /* additional fields */ |
| /// }, |
| /// methods = [ /* method names (comma separated; refer to macro definition of `item_template_methods!()`) */ ] |
| /// ) |
| /// ``` |
| /// |
| /// NOTE: ensure that the generic lifetimes (`'a`, `'cx`) and |
| /// required fields (`cx`, `it`) are identical (in terms of order and definition). |
| macro_rules! item_template { |
| ( |
| $(#[$meta:meta])* |
| struct $name:ident<'a, 'cx> { |
| cx: RefCell<&'a mut Context<'cx>>, |
| it: &'a clean::Item, |
| $($field_name:ident: $field_ty:ty),*, |
| }, |
| methods = [$($methods:tt),* $(,)?] |
| ) => { |
| #[derive(Template)] |
| $(#[$meta])* |
| struct $name<'a, 'cx> { |
| cx: RefCell<&'a mut Context<'cx>>, |
| it: &'a clean::Item, |
| $($field_name: $field_ty),* |
| } |
| |
| impl<'a, 'cx: 'a> ItemTemplate<'a, 'cx> for $name<'a, 'cx> { |
| fn item_and_mut_cx(&self) -> (&'a clean::Item, RefMut<'_, &'a mut Context<'cx>>) { |
| (&self.it, self.cx.borrow_mut()) |
| } |
| } |
| |
| impl<'a, 'cx: 'a> $name<'a, 'cx> { |
| item_template_methods!($($methods)*); |
| } |
| }; |
| } |
| |
| /// Implement common methods for item template structs generated by `item_template!()`. |
| /// |
| /// NOTE: this macro is intended to be used only by `item_template!()`. |
| macro_rules! item_template_methods { |
| () => {}; |
| (document $($rest:tt)*) => { |
| fn document<'b>(&'b self) -> impl fmt::Display + Captures<'a> + 'b + Captures<'cx> { |
| display_fn(move |f| { |
| let (item, mut cx) = self.item_and_mut_cx(); |
| let v = document(*cx, item, None, HeadingOffset::H2); |
| write!(f, "{v}") |
| }) |
| } |
| item_template_methods!($($rest)*); |
| }; |
| (document_type_layout $($rest:tt)*) => { |
| fn document_type_layout<'b>(&'b self) -> impl fmt::Display + Captures<'a> + 'b + Captures<'cx> { |
| display_fn(move |f| { |
| let (item, cx) = self.item_and_mut_cx(); |
| let def_id = item.item_id.expect_def_id(); |
| let v = document_type_layout(*cx, def_id); |
| write!(f, "{v}") |
| }) |
| } |
| item_template_methods!($($rest)*); |
| }; |
| (render_attributes_in_pre $($rest:tt)*) => { |
| fn render_attributes_in_pre<'b>(&'b self) -> impl fmt::Display + Captures<'a> + 'b + Captures<'cx> { |
| display_fn(move |f| { |
| let (item, cx) = self.item_and_mut_cx(); |
| let v = render_attributes_in_pre(item, "", &cx); |
| write!(f, "{v}") |
| }) |
| } |
| item_template_methods!($($rest)*); |
| }; |
| (render_assoc_items $($rest:tt)*) => { |
| fn render_assoc_items<'b>(&'b self) -> impl fmt::Display + Captures<'a> + 'b + Captures<'cx> { |
| display_fn(move |f| { |
| let (item, mut cx) = self.item_and_mut_cx(); |
| let def_id = item.item_id.expect_def_id(); |
| let v = render_assoc_items(*cx, item, def_id, AssocItemRender::All); |
| write!(f, "{v}") |
| }) |
| } |
| item_template_methods!($($rest)*); |
| }; |
| ($method:ident $($rest:tt)*) => { |
| compile_error!(concat!("unknown method: ", stringify!($method))); |
| }; |
| ($token:tt $($rest:tt)*) => { |
| compile_error!(concat!("unexpected token: ", stringify!($token))); |
| }; |
| } |
| |
| const ITEM_TABLE_OPEN: &str = "<ul class=\"item-table\">"; |
| const ITEM_TABLE_CLOSE: &str = "</ul>"; |
| const ITEM_TABLE_ROW_OPEN: &str = "<li>"; |
| const ITEM_TABLE_ROW_CLOSE: &str = "</li>"; |
| |
| // A component in a `use` path, like `string` in std::string::ToString |
| struct PathComponent { |
| path: String, |
| name: Symbol, |
| } |
| |
| #[derive(Template)] |
| #[template(path = "print_item.html")] |
| struct ItemVars<'a> { |
| typ: &'a str, |
| name: &'a str, |
| item_type: &'a str, |
| path_components: Vec<PathComponent>, |
| stability_since_raw: &'a str, |
| src_href: Option<&'a str>, |
| } |
| |
| /// Calls `print_where_clause` and returns `true` if a `where` clause was generated. |
| fn print_where_clause_and_check<'a, 'tcx: 'a>( |
| buffer: &mut Buffer, |
| gens: &'a clean::Generics, |
| cx: &'a Context<'tcx>, |
| ) -> bool { |
| let len_before = buffer.len(); |
| write!(buffer, "{}", print_where_clause(gens, cx, 0, Ending::Newline)); |
| len_before != buffer.len() |
| } |
| |
| pub(super) fn print_item(cx: &mut Context<'_>, item: &clean::Item, buf: &mut Buffer) { |
| debug_assert!(!item.is_stripped()); |
| let typ = match *item.kind { |
| clean::ModuleItem(_) => { |
| if item.is_crate() { |
| "Crate " |
| } else { |
| "Module " |
| } |
| } |
| clean::FunctionItem(..) | clean::ForeignFunctionItem(..) => "Function ", |
| clean::TraitItem(..) => "Trait ", |
| clean::StructItem(..) => "Struct ", |
| clean::UnionItem(..) => "Union ", |
| clean::EnumItem(..) => "Enum ", |
| clean::TypeAliasItem(..) => "Type Alias ", |
| clean::MacroItem(..) => "Macro ", |
| clean::ProcMacroItem(ref mac) => match mac.kind { |
| MacroKind::Bang => "Macro ", |
| MacroKind::Attr => "Attribute Macro ", |
| MacroKind::Derive => "Derive Macro ", |
| }, |
| clean::PrimitiveItem(..) => "Primitive Type ", |
| clean::StaticItem(..) | clean::ForeignStaticItem(..) => "Static ", |
| clean::ConstantItem(..) => "Constant ", |
| clean::ForeignTypeItem => "Foreign Type ", |
| clean::KeywordItem => "Keyword ", |
| clean::OpaqueTyItem(..) => "Opaque Type ", |
| clean::TraitAliasItem(..) => "Trait Alias ", |
| _ => { |
| // We don't generate pages for any other type. |
| unreachable!(); |
| } |
| }; |
| let mut stability_since_raw = Buffer::new(); |
| render_stability_since_raw( |
| &mut stability_since_raw, |
| item.stable_since(cx.tcx()), |
| item.const_stability(cx.tcx()), |
| ); |
| let stability_since_raw: String = stability_since_raw.into_inner(); |
| |
| // Write source tag |
| // |
| // When this item is part of a `crate use` in a downstream crate, the |
| // source link in the downstream documentation will actually come back to |
| // this page, and this link will be auto-clicked. The `id` attribute is |
| // used to find the link to auto-click. |
| let src_href = |
| if cx.include_sources && !item.is_primitive() { cx.src_href(item) } else { None }; |
| |
| let path_components = if item.is_primitive() || item.is_keyword() { |
| vec![] |
| } else { |
| let cur = &cx.current; |
| let amt = if item.is_mod() { cur.len() - 1 } else { cur.len() }; |
| cur.iter() |
| .enumerate() |
| .take(amt) |
| .map(|(i, component)| PathComponent { |
| path: "../".repeat(cur.len() - i - 1), |
| name: *component, |
| }) |
| .collect() |
| }; |
| |
| let item_vars = ItemVars { |
| typ, |
| name: item.name.as_ref().unwrap().as_str(), |
| item_type: &item.type_().to_string(), |
| path_components, |
| stability_since_raw: &stability_since_raw, |
| src_href: src_href.as_deref(), |
| }; |
| |
| item_vars.render_into(buf).unwrap(); |
| |
| match &*item.kind { |
| clean::ModuleItem(ref m) => item_module(buf, cx, item, &m.items), |
| clean::FunctionItem(ref f) | clean::ForeignFunctionItem(ref f, _) => { |
| item_function(buf, cx, item, f) |
| } |
| clean::TraitItem(ref t) => item_trait(buf, cx, item, t), |
| clean::StructItem(ref s) => item_struct(buf, cx, item, s), |
| clean::UnionItem(ref s) => item_union(buf, cx, item, s), |
| clean::EnumItem(ref e) => item_enum(buf, cx, item, e), |
| clean::TypeAliasItem(ref t) => item_type_alias(buf, cx, item, t), |
| clean::MacroItem(ref m) => item_macro(buf, cx, item, m), |
| clean::ProcMacroItem(ref m) => item_proc_macro(buf, cx, item, m), |
| clean::PrimitiveItem(_) => item_primitive(buf, cx, item), |
| clean::StaticItem(ref i) => item_static(buf, cx, item, i, None), |
| clean::ForeignStaticItem(ref i, safety) => item_static(buf, cx, item, i, Some(*safety)), |
| clean::ConstantItem(generics, ty, c) => item_constant(buf, cx, item, generics, ty, c), |
| clean::ForeignTypeItem => item_foreign_type(buf, cx, item), |
| clean::KeywordItem => item_keyword(buf, cx, item), |
| clean::OpaqueTyItem(ref e) => item_opaque_ty(buf, cx, item, e), |
| clean::TraitAliasItem(ref ta) => item_trait_alias(buf, cx, item, ta), |
| _ => { |
| // We don't generate pages for any other type. |
| unreachable!(); |
| } |
| } |
| |
| // Render notable-traits.js used for all methods in this module. |
| if !cx.types_with_notable_traits.is_empty() { |
| write!( |
| buf, |
| r#"<script type="text/json" id="notable-traits-data">{}</script>"#, |
| notable_traits_json(cx.types_with_notable_traits.iter(), cx) |
| ); |
| cx.types_with_notable_traits.clear(); |
| } |
| } |
| |
| /// For large structs, enums, unions, etc, determine whether to hide their fields |
| fn should_hide_fields(n_fields: usize) -> bool { |
| n_fields > 12 |
| } |
| |
| fn toggle_open(mut w: impl fmt::Write, text: impl fmt::Display) { |
| write!( |
| w, |
| "<details class=\"toggle type-contents-toggle\">\ |
| <summary class=\"hideme\">\ |
| <span>Show {text}</span>\ |
| </summary>", |
| ) |
| .unwrap(); |
| } |
| |
| fn toggle_close(mut w: impl fmt::Write) { |
| w.write_str("</details>").unwrap(); |
| } |
| |
| trait ItemTemplate<'a, 'cx: 'a>: askama::Template + fmt::Display { |
| fn item_and_mut_cx(&self) -> (&'a clean::Item, RefMut<'_, &'a mut Context<'cx>>); |
| } |
| |
| fn item_module(w: &mut Buffer, cx: &mut Context<'_>, item: &clean::Item, items: &[clean::Item]) { |
| write!(w, "{}", document(cx, item, None, HeadingOffset::H2)); |
| |
| let mut not_stripped_items = |
| items.iter().filter(|i| !i.is_stripped()).enumerate().collect::<Vec<_>>(); |
| |
| // the order of item types in the listing |
| fn reorder(ty: ItemType) -> u8 { |
| match ty { |
| ItemType::ExternCrate => 0, |
| ItemType::Import => 1, |
| ItemType::Primitive => 2, |
| ItemType::Module => 3, |
| ItemType::Macro => 4, |
| ItemType::Struct => 5, |
| ItemType::Enum => 6, |
| ItemType::Constant => 7, |
| ItemType::Static => 8, |
| ItemType::Trait => 9, |
| ItemType::Function => 10, |
| ItemType::TypeAlias => 12, |
| ItemType::Union => 13, |
| _ => 14 + ty as u8, |
| } |
| } |
| |
| fn cmp(i1: &clean::Item, i2: &clean::Item, tcx: TyCtxt<'_>) -> Ordering { |
| let rty1 = reorder(i1.type_()); |
| let rty2 = reorder(i2.type_()); |
| if rty1 != rty2 { |
| return rty1.cmp(&rty2); |
| } |
| let is_stable1 = i1.stability(tcx).as_ref().map(|s| s.level.is_stable()).unwrap_or(true); |
| let is_stable2 = i2.stability(tcx).as_ref().map(|s| s.level.is_stable()).unwrap_or(true); |
| if is_stable1 != is_stable2 { |
| // true is bigger than false in the standard bool ordering, |
| // but we actually want stable items to come first |
| return is_stable2.cmp(&is_stable1); |
| } |
| let lhs = i1.name.unwrap_or(kw::Empty); |
| let rhs = i2.name.unwrap_or(kw::Empty); |
| compare_names(lhs.as_str(), rhs.as_str()) |
| } |
| |
| let tcx = cx.tcx(); |
| |
| match cx.shared.module_sorting { |
| ModuleSorting::Alphabetical => { |
| not_stripped_items.sort_by(|(_, i1), (_, i2)| cmp(i1, i2, tcx)); |
| } |
| ModuleSorting::DeclarationOrder => {} |
| } |
| // This call is to remove re-export duplicates in cases such as: |
| // |
| // ``` |
| // pub(crate) mod foo { |
| // pub(crate) mod bar { |
| // pub(crate) trait Double { fn foo(); } |
| // } |
| // } |
| // |
| // pub(crate) use foo::bar::*; |
| // pub(crate) use foo::*; |
| // ``` |
| // |
| // `Double` will appear twice in the generated docs. |
| // |
| // FIXME: This code is quite ugly and could be improved. Small issue: DefId |
| // can be identical even if the elements are different (mostly in imports). |
| // So in case this is an import, we keep everything by adding a "unique id" |
| // (which is the position in the vector). |
| not_stripped_items.dedup_by_key(|(idx, i)| { |
| ( |
| i.item_id, |
| if i.name.is_some() { Some(full_path(cx, i)) } else { None }, |
| i.type_(), |
| if i.is_import() { *idx } else { 0 }, |
| ) |
| }); |
| |
| debug!("{not_stripped_items:?}"); |
| let mut last_section = None; |
| |
| for (_, myitem) in ¬_stripped_items { |
| let my_section = item_ty_to_section(myitem.type_()); |
| if Some(my_section) != last_section { |
| if last_section.is_some() { |
| w.write_str(ITEM_TABLE_CLOSE); |
| } |
| last_section = Some(my_section); |
| write_section_heading( |
| w, |
| my_section.name(), |
| &cx.derive_id(my_section.id()), |
| None, |
| ITEM_TABLE_OPEN, |
| ); |
| } |
| |
| match *myitem.kind { |
| clean::ExternCrateItem { ref src } => { |
| use crate::html::format::anchor; |
| |
| w.write_str(ITEM_TABLE_ROW_OPEN); |
| match *src { |
| Some(src) => write!( |
| w, |
| "<div class=\"item-name\"><code>{}extern crate {} as {};", |
| visibility_print_with_space(myitem, cx), |
| anchor(myitem.item_id.expect_def_id(), src, cx), |
| myitem.name.unwrap(), |
| ), |
| None => write!( |
| w, |
| "<div class=\"item-name\"><code>{}extern crate {};", |
| visibility_print_with_space(myitem, cx), |
| anchor(myitem.item_id.expect_def_id(), myitem.name.unwrap(), cx), |
| ), |
| } |
| w.write_str("</code></div>"); |
| w.write_str(ITEM_TABLE_ROW_CLOSE); |
| } |
| |
| clean::ImportItem(ref import) => { |
| let stab_tags = if let Some(import_def_id) = import.source.did { |
| // Just need an item with the correct def_id and attrs |
| let import_item = |
| clean::Item { item_id: import_def_id.into(), ..(*myitem).clone() }; |
| |
| let stab_tags = Some(extra_info_tags(&import_item, item, tcx).to_string()); |
| stab_tags |
| } else { |
| None |
| }; |
| |
| w.write_str(ITEM_TABLE_ROW_OPEN); |
| let id = match import.kind { |
| clean::ImportKind::Simple(s) => { |
| format!(" id=\"{}\"", cx.derive_id(format!("reexport.{s}"))) |
| } |
| clean::ImportKind::Glob => String::new(), |
| }; |
| let stab_tags = stab_tags.unwrap_or_default(); |
| let (stab_tags_before, stab_tags_after) = if stab_tags.is_empty() { |
| ("", "") |
| } else { |
| ("<div class=\"desc docblock-short\">", "</div>") |
| }; |
| write!( |
| w, |
| "<div class=\"item-name\"{id}>\ |
| <code>{vis}{imp}</code>\ |
| </div>\ |
| {stab_tags_before}{stab_tags}{stab_tags_after}", |
| vis = visibility_print_with_space(myitem, cx), |
| imp = import.print(cx), |
| ); |
| w.write_str(ITEM_TABLE_ROW_CLOSE); |
| } |
| |
| _ => { |
| if myitem.name.is_none() { |
| continue; |
| } |
| |
| let unsafety_flag = match *myitem.kind { |
| clean::FunctionItem(_) | clean::ForeignFunctionItem(..) |
| if myitem.fn_header(tcx).unwrap().safety == hir::Safety::Unsafe => |
| { |
| "<sup title=\"unsafe function\">âš </sup>" |
| } |
| clean::ForeignStaticItem(_, hir::Safety::Unsafe) => { |
| "<sup title=\"unsafe static\">âš </sup>" |
| } |
| _ => "", |
| }; |
| |
| let visibility_and_hidden = match myitem.visibility(tcx) { |
| Some(ty::Visibility::Restricted(_)) => { |
| if myitem.is_doc_hidden() { |
| // Don't separate with a space when there are two of them |
| "<span title=\"Restricted Visibility\"> 🔒</span><span title=\"Hidden item\">👻</span> " |
| } else { |
| "<span title=\"Restricted Visibility\"> 🔒</span> " |
| } |
| } |
| _ if myitem.is_doc_hidden() => "<span title=\"Hidden item\"> 👻</span> ", |
| _ => "", |
| }; |
| |
| w.write_str(ITEM_TABLE_ROW_OPEN); |
| let docs = |
| MarkdownSummaryLine(&myitem.doc_value(), &myitem.links(cx)).into_string(); |
| let (docs_before, docs_after) = if docs.is_empty() { |
| ("", "") |
| } else { |
| ("<div class=\"desc docblock-short\">", "</div>") |
| }; |
| write!( |
| w, |
| "<div class=\"item-name\">\ |
| <a class=\"{class}\" href=\"{href}\" title=\"{title}\">{name}</a>\ |
| {visibility_and_hidden}\ |
| {unsafety_flag}\ |
| {stab_tags}\ |
| </div>\ |
| {docs_before}{docs}{docs_after}", |
| name = myitem.name.unwrap(), |
| visibility_and_hidden = visibility_and_hidden, |
| stab_tags = extra_info_tags(myitem, item, tcx), |
| class = myitem.type_(), |
| unsafety_flag = unsafety_flag, |
| href = item_path(myitem.type_(), myitem.name.unwrap().as_str()), |
| title = [myitem.type_().to_string(), full_path(cx, myitem)] |
| .iter() |
| .filter_map(|s| if !s.is_empty() { Some(s.as_str()) } else { None }) |
| .collect::<Vec<_>>() |
| .join(" "), |
| ); |
| w.write_str(ITEM_TABLE_ROW_CLOSE); |
| } |
| } |
| } |
| |
| if last_section.is_some() { |
| w.write_str(ITEM_TABLE_CLOSE); |
| } |
| } |
| |
| /// Render the stability, deprecation and portability tags that are displayed in the item's summary |
| /// at the module level. |
| fn extra_info_tags<'a, 'tcx: 'a>( |
| item: &'a clean::Item, |
| parent: &'a clean::Item, |
| tcx: TyCtxt<'tcx>, |
| ) -> impl fmt::Display + 'a + Captures<'tcx> { |
| display_fn(move |f| { |
| fn tag_html<'a>( |
| class: &'a str, |
| title: &'a str, |
| contents: &'a str, |
| ) -> impl fmt::Display + 'a { |
| display_fn(move |f| { |
| write!( |
| f, |
| r#"<span class="stab {class}" title="{title}">{contents}</span>"#, |
| title = Escape(title), |
| ) |
| }) |
| } |
| |
| // The trailing space after each tag is to space it properly against the rest of the docs. |
| if let Some(depr) = &item.deprecation(tcx) { |
| let message = if depr.is_in_effect() { "Deprecated" } else { "Deprecation planned" }; |
| write!(f, "{}", tag_html("deprecated", "", message))?; |
| } |
| |
| // The "rustc_private" crates are permanently unstable so it makes no sense |
| // to render "unstable" everywhere. |
| if item |
| .stability(tcx) |
| .as_ref() |
| .is_some_and(|s| s.is_unstable() && s.feature != sym::rustc_private) |
| { |
| write!(f, "{}", tag_html("unstable", "", "Experimental"))?; |
| } |
| |
| let cfg = match (&item.cfg, parent.cfg.as_ref()) { |
| (Some(cfg), Some(parent_cfg)) => cfg.simplify_with(parent_cfg), |
| (cfg, _) => cfg.as_deref().cloned(), |
| }; |
| |
| debug!( |
| "Portability name={name:?} {cfg:?} - {parent_cfg:?} = {cfg:?}", |
| name = item.name, |
| cfg = item.cfg, |
| parent_cfg = parent.cfg |
| ); |
| if let Some(ref cfg) = cfg { |
| write!( |
| f, |
| "{}", |
| tag_html("portability", &cfg.render_long_plain(), &cfg.render_short_html()) |
| ) |
| } else { |
| Ok(()) |
| } |
| }) |
| } |
| |
| fn item_function(w: &mut Buffer, cx: &mut Context<'_>, it: &clean::Item, f: &clean::Function) { |
| let tcx = cx.tcx(); |
| let header = it.fn_header(tcx).expect("printing a function which isn't a function"); |
| debug!( |
| "item_function/const: {:?} {:?} {:?} {:?}", |
| it.name, |
| &header.constness, |
| it.stable_since(tcx), |
| it.const_stability(tcx), |
| ); |
| let constness = print_constness_with_space( |
| &header.constness, |
| it.stable_since(tcx), |
| it.const_stability(tcx), |
| ); |
| let safety = header.safety.print_with_space(); |
| let abi = print_abi_with_space(header.abi).to_string(); |
| let asyncness = header.asyncness.print_with_space(); |
| let visibility = visibility_print_with_space(it, cx).to_string(); |
| let name = it.name.unwrap(); |
| |
| let generics_len = format!("{:#}", f.generics.print(cx)).len(); |
| let header_len = "fn ".len() |
| + visibility.len() |
| + constness.len() |
| + asyncness.len() |
| + safety.len() |
| + abi.len() |
| + name.as_str().len() |
| + generics_len; |
| |
| let notable_traits = notable_traits_button(&f.decl.output, cx); |
| |
| wrap_item(w, |w| { |
| w.reserve(header_len); |
| write!( |
| w, |
| "{attrs}{vis}{constness}{asyncness}{safety}{abi}fn \ |
| {name}{generics}{decl}{notable_traits}{where_clause}", |
| attrs = render_attributes_in_pre(it, "", cx), |
| vis = visibility, |
| constness = constness, |
| asyncness = asyncness, |
| safety = safety, |
| abi = abi, |
| name = name, |
| generics = f.generics.print(cx), |
| where_clause = print_where_clause(&f.generics, cx, 0, Ending::Newline), |
| decl = f.decl.full_print(header_len, 0, cx), |
| notable_traits = notable_traits.unwrap_or_default(), |
| ); |
| }); |
| write!(w, "{}", document(cx, it, None, HeadingOffset::H2)); |
| } |
| |
| fn item_trait(w: &mut Buffer, cx: &mut Context<'_>, it: &clean::Item, t: &clean::Trait) { |
| let tcx = cx.tcx(); |
| let bounds = bounds(&t.bounds, false, cx); |
| let required_types = t.items.iter().filter(|m| m.is_ty_associated_type()).collect::<Vec<_>>(); |
| let provided_types = t.items.iter().filter(|m| m.is_associated_type()).collect::<Vec<_>>(); |
| let required_consts = t.items.iter().filter(|m| m.is_ty_associated_const()).collect::<Vec<_>>(); |
| let provided_consts = t.items.iter().filter(|m| m.is_associated_const()).collect::<Vec<_>>(); |
| let required_methods = t.items.iter().filter(|m| m.is_ty_method()).collect::<Vec<_>>(); |
| let provided_methods = t.items.iter().filter(|m| m.is_method()).collect::<Vec<_>>(); |
| let count_types = required_types.len() + provided_types.len(); |
| let count_consts = required_consts.len() + provided_consts.len(); |
| let count_methods = required_methods.len() + provided_methods.len(); |
| let must_implement_one_of_functions = tcx.trait_def(t.def_id).must_implement_one_of.clone(); |
| |
| // Output the trait definition |
| wrap_item(w, |mut w| { |
| write!( |
| w, |
| "{attrs}{vis}{safety}{is_auto}trait {name}{generics}{bounds}", |
| attrs = render_attributes_in_pre(it, "", cx), |
| vis = visibility_print_with_space(it, cx), |
| safety = t.safety(tcx).print_with_space(), |
| is_auto = if t.is_auto(tcx) { "auto " } else { "" }, |
| name = it.name.unwrap(), |
| generics = t.generics.print(cx), |
| ); |
| |
| if !t.generics.where_predicates.is_empty() { |
| write!(w, "{}", print_where_clause(&t.generics, cx, 0, Ending::Newline)); |
| } else { |
| w.write_str(" "); |
| } |
| |
| if t.items.is_empty() { |
| w.write_str("{ }"); |
| } else { |
| // FIXME: we should be using a derived_id for the Anchors here |
| w.write_str("{\n"); |
| let mut toggle = false; |
| |
| // If there are too many associated types, hide _everything_ |
| if should_hide_fields(count_types) { |
| toggle = true; |
| toggle_open( |
| &mut w, |
| format_args!("{} associated items", count_types + count_consts + count_methods), |
| ); |
| } |
| for types in [&required_types, &provided_types] { |
| for t in types { |
| render_assoc_item( |
| w, |
| t, |
| AssocItemLink::Anchor(None), |
| ItemType::Trait, |
| cx, |
| RenderMode::Normal, |
| ); |
| w.write_str(";\n"); |
| } |
| } |
| // If there are too many associated constants, hide everything after them |
| // We also do this if the types + consts is large because otherwise we could |
| // render a bunch of types and _then_ a bunch of consts just because both were |
| // _just_ under the limit |
| if !toggle && should_hide_fields(count_types + count_consts) { |
| toggle = true; |
| toggle_open( |
| &mut w, |
| format_args!( |
| "{count_consts} associated constant{plural_const} and \ |
| {count_methods} method{plural_method}", |
| plural_const = pluralize(count_consts), |
| plural_method = pluralize(count_methods), |
| ), |
| ); |
| } |
| if count_types != 0 && (count_consts != 0 || count_methods != 0) { |
| w.write_str("\n"); |
| } |
| for consts in [&required_consts, &provided_consts] { |
| for c in consts { |
| render_assoc_item( |
| w, |
| c, |
| AssocItemLink::Anchor(None), |
| ItemType::Trait, |
| cx, |
| RenderMode::Normal, |
| ); |
| w.write_str(";\n"); |
| } |
| } |
| if !toggle && should_hide_fields(count_methods) { |
| toggle = true; |
| toggle_open(&mut w, format_args!("{count_methods} methods")); |
| } |
| if count_consts != 0 && count_methods != 0 { |
| w.write_str("\n"); |
| } |
| |
| if !required_methods.is_empty() { |
| write!(w, " // Required method{}\n", pluralize(required_methods.len())); |
| } |
| for (pos, m) in required_methods.iter().enumerate() { |
| render_assoc_item( |
| w, |
| m, |
| AssocItemLink::Anchor(None), |
| ItemType::Trait, |
| cx, |
| RenderMode::Normal, |
| ); |
| w.write_str(";\n"); |
| |
| if pos < required_methods.len() - 1 { |
| w.write_str("<span class=\"item-spacer\"></span>"); |
| } |
| } |
| if !required_methods.is_empty() && !provided_methods.is_empty() { |
| w.write_str("\n"); |
| } |
| |
| if !provided_methods.is_empty() { |
| write!(w, " // Provided method{}\n", pluralize(provided_methods.len())); |
| } |
| for (pos, m) in provided_methods.iter().enumerate() { |
| render_assoc_item( |
| w, |
| m, |
| AssocItemLink::Anchor(None), |
| ItemType::Trait, |
| cx, |
| RenderMode::Normal, |
| ); |
| |
| w.write_str(" { ... }\n"); |
| |
| if pos < provided_methods.len() - 1 { |
| w.write_str("<span class=\"item-spacer\"></span>"); |
| } |
| } |
| if toggle { |
| toggle_close(&mut w); |
| } |
| w.write_str("}"); |
| } |
| }); |
| |
| // Trait documentation |
| write!(w, "{}", document(cx, it, None, HeadingOffset::H2)); |
| |
| fn trait_item(w: &mut Buffer, cx: &mut Context<'_>, m: &clean::Item, t: &clean::Item) { |
| let name = m.name.unwrap(); |
| info!("Documenting {name} on {ty_name:?}", ty_name = t.name); |
| let item_type = m.type_(); |
| let id = cx.derive_id(format!("{item_type}.{name}")); |
| |
| let mut content = Buffer::empty_from(w); |
| write!(content, "{}", document_full(m, cx, HeadingOffset::H5)); |
| |
| let toggled = !content.is_empty(); |
| if toggled { |
| let method_toggle_class = if item_type.is_method() { " method-toggle" } else { "" }; |
| write!(w, "<details class=\"toggle{method_toggle_class}\" open><summary>"); |
| } |
| write!(w, "<section id=\"{id}\" class=\"method\">"); |
| render_rightside(w, cx, m, RenderMode::Normal); |
| write!(w, "<h4 class=\"code-header\">"); |
| render_assoc_item( |
| w, |
| m, |
| AssocItemLink::Anchor(Some(&id)), |
| ItemType::Impl, |
| cx, |
| RenderMode::Normal, |
| ); |
| w.write_str("</h4></section>"); |
| document_item_info(cx, m, Some(t)).render_into(w).unwrap(); |
| if toggled { |
| write!(w, "</summary>"); |
| w.push_buffer(content); |
| write!(w, "</details>"); |
| } |
| } |
| |
| if !required_types.is_empty() { |
| write_section_heading( |
| w, |
| "Required Associated Types", |
| "required-associated-types", |
| None, |
| "<div class=\"methods\">", |
| ); |
| for t in required_types { |
| trait_item(w, cx, t, it); |
| } |
| w.write_str("</div>"); |
| } |
| if !provided_types.is_empty() { |
| write_section_heading( |
| w, |
| "Provided Associated Types", |
| "provided-associated-types", |
| None, |
| "<div class=\"methods\">", |
| ); |
| for t in provided_types { |
| trait_item(w, cx, t, it); |
| } |
| w.write_str("</div>"); |
| } |
| |
| if !required_consts.is_empty() { |
| write_section_heading( |
| w, |
| "Required Associated Constants", |
| "required-associated-consts", |
| None, |
| "<div class=\"methods\">", |
| ); |
| for t in required_consts { |
| trait_item(w, cx, t, it); |
| } |
| w.write_str("</div>"); |
| } |
| if !provided_consts.is_empty() { |
| write_section_heading( |
| w, |
| "Provided Associated Constants", |
| "provided-associated-consts", |
| None, |
| "<div class=\"methods\">", |
| ); |
| for t in provided_consts { |
| trait_item(w, cx, t, it); |
| } |
| w.write_str("</div>"); |
| } |
| |
| // Output the documentation for each function individually |
| if !required_methods.is_empty() || must_implement_one_of_functions.is_some() { |
| write_section_heading( |
| w, |
| "Required Methods", |
| "required-methods", |
| None, |
| "<div class=\"methods\">", |
| ); |
| |
| if let Some(list) = must_implement_one_of_functions.as_deref() { |
| write!( |
| w, |
| "<div class=\"stab must_implement\">At least one of the `{}` methods is required.</div>", |
| list.iter().join("`, `") |
| ); |
| } |
| |
| for m in required_methods { |
| trait_item(w, cx, m, it); |
| } |
| w.write_str("</div>"); |
| } |
| if !provided_methods.is_empty() { |
| write_section_heading( |
| w, |
| "Provided Methods", |
| "provided-methods", |
| None, |
| "<div class=\"methods\">", |
| ); |
| for m in provided_methods { |
| trait_item(w, cx, m, it); |
| } |
| w.write_str("</div>"); |
| } |
| |
| // If there are methods directly on this trait object, render them here. |
| write!(w, "{}", render_assoc_items(cx, it, it.item_id.expect_def_id(), AssocItemRender::All)); |
| |
| let cloned_shared = Rc::clone(&cx.shared); |
| let cache = &cloned_shared.cache; |
| let mut extern_crates = FxHashSet::default(); |
| |
| if !t.is_object_safe(cx.tcx()) { |
| write_section_heading( |
| w, |
| "Object Safety", |
| "object-safety", |
| None, |
| &format!( |
| "<div class=\"object-safety-info\">This trait is <b>not</b> \ |
| <a href=\"{base}/reference/items/traits.html#object-safety\">\ |
| object safe</a>.</div>", |
| base = crate::clean::utils::DOC_RUST_LANG_ORG_CHANNEL |
| ), |
| ); |
| } |
| |
| if let Some(implementors) = cache.implementors.get(&it.item_id.expect_def_id()) { |
| // The DefId is for the first Type found with that name. The bool is |
| // if any Types with the same name but different DefId have been found. |
| let mut implementor_dups: FxHashMap<Symbol, (DefId, bool)> = FxHashMap::default(); |
| for implementor in implementors { |
| if let Some(did) = implementor.inner_impl().for_.without_borrowed_ref().def_id(cache) |
| && !did.is_local() |
| { |
| extern_crates.insert(did.krate); |
| } |
| match implementor.inner_impl().for_.without_borrowed_ref() { |
| clean::Type::Path { ref path } if !path.is_assoc_ty() => { |
| let did = path.def_id(); |
| let &mut (prev_did, ref mut has_duplicates) = |
| implementor_dups.entry(path.last()).or_insert((did, false)); |
| if prev_did != did { |
| *has_duplicates = true; |
| } |
| } |
| _ => {} |
| } |
| } |
| |
| let (local, mut foreign) = |
| implementors.iter().partition::<Vec<_>, _>(|i| i.is_on_local_type(cx)); |
| |
| let (mut synthetic, mut concrete): (Vec<&&Impl>, Vec<&&Impl>) = |
| local.iter().partition(|i| i.inner_impl().kind.is_auto()); |
| |
| synthetic.sort_by_cached_key(|i| ImplString::new(i, cx)); |
| concrete.sort_by_cached_key(|i| ImplString::new(i, cx)); |
| foreign.sort_by_cached_key(|i| ImplString::new(i, cx)); |
| |
| if !foreign.is_empty() { |
| write_section_heading(w, "Implementations on Foreign Types", "foreign-impls", None, ""); |
| |
| for implementor in foreign { |
| let provided_methods = implementor.inner_impl().provided_trait_methods(tcx); |
| let assoc_link = |
| AssocItemLink::GotoSource(implementor.impl_item.item_id, &provided_methods); |
| render_impl( |
| w, |
| cx, |
| implementor, |
| it, |
| assoc_link, |
| RenderMode::Normal, |
| None, |
| &[], |
| ImplRenderingParameters { |
| show_def_docs: false, |
| show_default_items: false, |
| show_non_assoc_items: true, |
| toggle_open_by_default: false, |
| }, |
| ); |
| } |
| } |
| |
| write_section_heading( |
| w, |
| "Implementors", |
| "implementors", |
| None, |
| "<div id=\"implementors-list\">", |
| ); |
| for implementor in concrete { |
| render_implementor(cx, implementor, it, w, &implementor_dups, &[]); |
| } |
| w.write_str("</div>"); |
| |
| if t.is_auto(tcx) { |
| write_section_heading( |
| w, |
| "Auto implementors", |
| "synthetic-implementors", |
| None, |
| "<div id=\"synthetic-implementors-list\">", |
| ); |
| for implementor in synthetic { |
| render_implementor( |
| cx, |
| implementor, |
| it, |
| w, |
| &implementor_dups, |
| &collect_paths_for_type(implementor.inner_impl().for_.clone(), cache), |
| ); |
| } |
| w.write_str("</div>"); |
| } |
| } else { |
| // even without any implementations to write in, we still want the heading and list, so the |
| // implementors javascript file pulled in below has somewhere to write the impls into |
| write_section_heading( |
| w, |
| "Implementors", |
| "implementors", |
| None, |
| "<div id=\"implementors-list\"></div>", |
| ); |
| |
| if t.is_auto(tcx) { |
| write_section_heading( |
| w, |
| "Auto implementors", |
| "synthetic-implementors", |
| None, |
| "<div id=\"synthetic-implementors-list\"></div>", |
| ); |
| } |
| } |
| |
| // [RUSTDOCIMPL] trait.impl |
| // |
| // Include implementors in crates that depend on the current crate. |
| // |
| // This is complicated by the way rustdoc is invoked, which is basically |
| // the same way rustc is invoked: it gets called, one at a time, for each |
| // crate. When building the rustdocs for the current crate, rustdoc can |
| // see crate metadata for its dependencies, but cannot see metadata for its |
| // dependents. |
| // |
| // To make this work, we generate a "hook" at this stage, and our |
| // dependents can "plug in" to it when they build. For simplicity's sake, |
| // it's [JSONP]: a JavaScript file with the data we need (and can parse), |
| // surrounded by a tiny wrapper that the Rust side ignores, but allows the |
| // JavaScript side to include without having to worry about Same Origin |
| // Policy. The code for *that* is in `write_shared.rs`. |
| // |
| // This is further complicated by `#[doc(inline)]`. We want all copies |
| // of an inlined trait to reference the same JS file, to address complex |
| // dependency graphs like this one (lower crates depend on higher crates): |
| // |
| // ```text |
| // -------------------------------------------- |
| // | crate A: trait Foo | |
| // -------------------------------------------- |
| // | | |
| // -------------------------------- | |
| // | crate B: impl A::Foo for Bar | | |
| // -------------------------------- | |
| // | | |
| // --------------------------------------------- |
| // | crate C: #[doc(inline)] use A::Foo as Baz | |
| // | impl Baz for Quux | |
| // --------------------------------------------- |
| // ``` |
| // |
| // Basically, we want `C::Baz` and `A::Foo` to show the same set of |
| // impls, which is easier if they both treat `/trait.impl/A/trait.Foo.js` |
| // as the Single Source of Truth. |
| // |
| // We also want the `impl Baz for Quux` to be written to |
| // `trait.Foo.js`. However, when we generate plain HTML for `C::Baz`, |
| // we're going to want to generate plain HTML for `impl Baz for Quux` too, |
| // because that'll load faster, and it's better for SEO. And we don't want |
| // the same impl to show up twice on the same page. |
| // |
| // To make this work, the trait.impl/A/trait.Foo.js JS file has a structure kinda |
| // like this: |
| // |
| // ```js |
| // JSONP({ |
| // "B": {"impl A::Foo for Bar"}, |
| // "C": {"impl Baz for Quux"}, |
| // }); |
| // ``` |
| // |
| // First of all, this means we can rebuild a crate, and it'll replace its own |
| // data if something changes. That is, `rustdoc` is idempotent. The other |
| // advantage is that we can list the crates that get included in the HTML, |
| // and ignore them when doing the JavaScript-based part of rendering. |
| // So C's HTML will have something like this: |
| // |
| // ```html |
| // <script src="/trait.impl/A/trait.Foo.js" |
| // data-ignore-extern-crates="A,B" async></script> |
| // ``` |
| // |
| // And, when the JS runs, anything in data-ignore-extern-crates is known |
| // to already be in the HTML, and will be ignored. |
| // |
| // [JSONP]: https://en.wikipedia.org/wiki/JSONP |
| let mut js_src_path: UrlPartsBuilder = std::iter::repeat("..") |
| .take(cx.current.len()) |
| .chain(std::iter::once("trait.impl")) |
| .collect(); |
| if let Some(did) = it.item_id.as_def_id() |
| && let get_extern = { || cache.external_paths.get(&did).map(|s| &s.0) } |
| && let Some(fqp) = cache.exact_paths.get(&did).or_else(get_extern) |
| { |
| js_src_path.extend(fqp[..fqp.len() - 1].iter().copied()); |
| js_src_path.push_fmt(format_args!("{}.{}.js", it.type_(), fqp.last().unwrap())); |
| } else { |
| js_src_path.extend(cx.current.iter().copied()); |
| js_src_path.push_fmt(format_args!("{}.{}.js", it.type_(), it.name.unwrap())); |
| } |
| let extern_crates = extern_crates |
| .into_iter() |
| .map(|cnum| tcx.crate_name(cnum).to_string()) |
| .collect::<Vec<_>>() |
| .join(","); |
| let (extern_before, extern_after) = |
| if extern_crates.is_empty() { ("", "") } else { (" data-ignore-extern-crates=\"", "\"") }; |
| write!( |
| w, |
| "<script src=\"{src}\"{extern_before}{extern_crates}{extern_after} async></script>", |
| src = js_src_path.finish(), |
| ); |
| } |
| |
| fn item_trait_alias( |
| w: &mut impl fmt::Write, |
| cx: &mut Context<'_>, |
| it: &clean::Item, |
| t: &clean::TraitAlias, |
| ) { |
| wrap_item(w, |w| { |
| write!( |
| w, |
| "{attrs}trait {name}{generics}{where_b} = {bounds};", |
| attrs = render_attributes_in_pre(it, "", cx), |
| name = it.name.unwrap(), |
| generics = t.generics.print(cx), |
| where_b = print_where_clause(&t.generics, cx, 0, Ending::Newline), |
| bounds = bounds(&t.bounds, true, cx), |
| ) |
| .unwrap(); |
| }); |
| |
| write!(w, "{}", document(cx, it, None, HeadingOffset::H2)).unwrap(); |
| // Render any items associated directly to this alias, as otherwise they |
| // won't be visible anywhere in the docs. It would be nice to also show |
| // associated items from the aliased type (see discussion in #32077), but |
| // we need #14072 to make sense of the generics. |
| write!(w, "{}", render_assoc_items(cx, it, it.item_id.expect_def_id(), AssocItemRender::All)) |
| .unwrap(); |
| } |
| |
| fn item_opaque_ty( |
| w: &mut impl fmt::Write, |
| cx: &mut Context<'_>, |
| it: &clean::Item, |
| t: &clean::OpaqueTy, |
| ) { |
| wrap_item(w, |w| { |
| write!( |
| w, |
| "{attrs}type {name}{generics}{where_clause} = impl {bounds};", |
| attrs = render_attributes_in_pre(it, "", cx), |
| name = it.name.unwrap(), |
| generics = t.generics.print(cx), |
| where_clause = print_where_clause(&t.generics, cx, 0, Ending::Newline), |
| bounds = bounds(&t.bounds, false, cx), |
| ) |
| .unwrap(); |
| }); |
| |
| write!(w, "{}", document(cx, it, None, HeadingOffset::H2)).unwrap(); |
| |
| // Render any items associated directly to this alias, as otherwise they |
| // won't be visible anywhere in the docs. It would be nice to also show |
| // associated items from the aliased type (see discussion in #32077), but |
| // we need #14072 to make sense of the generics. |
| write!(w, "{}", render_assoc_items(cx, it, it.item_id.expect_def_id(), AssocItemRender::All)) |
| .unwrap(); |
| } |
| |
| fn item_type_alias(w: &mut Buffer, cx: &mut Context<'_>, it: &clean::Item, t: &clean::TypeAlias) { |
| wrap_item(w, |w| { |
| write!( |
| w, |
| "{attrs}{vis}type {name}{generics}{where_clause} = {type_};", |
| attrs = render_attributes_in_pre(it, "", cx), |
| vis = visibility_print_with_space(it, cx), |
| name = it.name.unwrap(), |
| generics = t.generics.print(cx), |
| where_clause = print_where_clause(&t.generics, cx, 0, Ending::Newline), |
| type_ = t.type_.print(cx), |
| ); |
| }); |
| |
| write!(w, "{}", document(cx, it, None, HeadingOffset::H2)); |
| |
| if let Some(inner_type) = &t.inner_type { |
| write_section_heading(w, "Aliased Type", "aliased-type", None, ""); |
| |
| match inner_type { |
| clean::TypeAliasInnerType::Enum { variants, is_non_exhaustive } => { |
| let variants_iter = || variants.iter().filter(|i| !i.is_stripped()); |
| let ty = cx.tcx().type_of(it.def_id().unwrap()).instantiate_identity(); |
| let enum_def_id = ty.ty_adt_def().unwrap().did(); |
| |
| wrap_item(w, |w| { |
| let variants_len = variants.len(); |
| let variants_count = variants_iter().count(); |
| let has_stripped_entries = variants_len != variants_count; |
| |
| write!(w, "enum {}{}", it.name.unwrap(), t.generics.print(cx)); |
| render_enum_fields( |
| w, |
| cx, |
| Some(&t.generics), |
| &variants, |
| variants_count, |
| has_stripped_entries, |
| *is_non_exhaustive, |
| enum_def_id, |
| ) |
| }); |
| item_variants(w, cx, it, &variants, enum_def_id); |
| } |
| clean::TypeAliasInnerType::Union { fields } => { |
| wrap_item(w, |w| { |
| let fields_count = fields.iter().filter(|i| !i.is_stripped()).count(); |
| let has_stripped_fields = fields.len() != fields_count; |
| |
| write!(w, "union {}{}", it.name.unwrap(), t.generics.print(cx)); |
| render_struct_fields( |
| w, |
| Some(&t.generics), |
| None, |
| fields, |
| "", |
| true, |
| has_stripped_fields, |
| cx, |
| ); |
| }); |
| item_fields(w, cx, it, fields, None); |
| } |
| clean::TypeAliasInnerType::Struct { ctor_kind, fields } => { |
| wrap_item(w, |w| { |
| let fields_count = fields.iter().filter(|i| !i.is_stripped()).count(); |
| let has_stripped_fields = fields.len() != fields_count; |
| |
| write!(w, "struct {}{}", it.name.unwrap(), t.generics.print(cx)); |
| render_struct_fields( |
| w, |
| Some(&t.generics), |
| *ctor_kind, |
| fields, |
| "", |
| true, |
| has_stripped_fields, |
| cx, |
| ); |
| }); |
| item_fields(w, cx, it, fields, None); |
| } |
| } |
| } |
| |
| let def_id = it.item_id.expect_def_id(); |
| // Render any items associated directly to this alias, as otherwise they |
| // won't be visible anywhere in the docs. It would be nice to also show |
| // associated items from the aliased type (see discussion in #32077), but |
| // we need #14072 to make sense of the generics. |
| write!(w, "{}", render_assoc_items(cx, it, def_id, AssocItemRender::All)); |
| write!(w, "{}", document_type_layout(cx, def_id)); |
| |
| // [RUSTDOCIMPL] type.impl |
| // |
| // Include type definitions from the alias target type. |
| // |
| // Earlier versions of this code worked by having `render_assoc_items` |
| // include this data directly. That generates *O*`(types*impls)` of HTML |
| // text, and some real crates have a lot of types and impls. |
| // |
| // To create the same UX without generating half a gigabyte of HTML for a |
| // crate that only contains 20 megabytes of actual documentation[^115718], |
| // rustdoc stashes these type-alias-inlined docs in a [JSONP] |
| // "database-lite". The file itself is generated in `write_shared.rs`, |
| // and hooks into functions provided by `main.js`. |
| // |
| // The format of `trait.impl` and `type.impl` JS files are superficially |
| // similar. Each line, except the JSONP wrapper itself, belongs to a crate, |
| // and they are otherwise separate (rustdoc should be idempotent). The |
| // "meat" of the file is HTML strings, so the frontend code is very simple. |
| // Links are relative to the doc root, though, so the frontend needs to fix |
| // that up, and inlined docs can reuse these files. |
| // |
| // However, there are a few differences, caused by the sophisticated |
| // features that type aliases have. Consider this crate graph: |
| // |
| // ```text |
| // --------------------------------- |
| // | crate A: struct Foo<T> | |
| // | type Bar = Foo<i32> | |
| // | impl X for Foo<i8> | |
| // | impl Y for Foo<i32> | |
| // --------------------------------- |
| // | |
| // ---------------------------------- |
| // | crate B: type Baz = A::Foo<i8> | |
| // | type Xyy = A::Foo<i8> | |
| // | impl Z for Xyy | |
| // ---------------------------------- |
| // ``` |
| // |
| // The type.impl/A/struct.Foo.js JS file has a structure kinda like this: |
| // |
| // ```js |
| // JSONP({ |
| // "A": [["impl Y for Foo<i32>", "Y", "A::Bar"]], |
| // "B": [["impl X for Foo<i8>", "X", "B::Baz", "B::Xyy"], ["impl Z for Xyy", "Z", "B::Baz"]], |
| // }); |
| // ``` |
| // |
| // When the type.impl file is loaded, only the current crate's docs are |
| // actually used. The main reason to bundle them together is that there's |
| // enough duplication in them for DEFLATE to remove the redundancy. |
| // |
| // The contents of a crate are a list of impl blocks, themselves |
| // represented as lists. The first item in the sublist is the HTML block, |
| // the second item is the name of the trait (which goes in the sidebar), |
| // and all others are the names of type aliases that successfully match. |
| // |
| // This way: |
| // |
| // - There's no need to generate these files for types that have no aliases |
| // in the current crate. If a dependent crate makes a type alias, it'll |
| // take care of generating its own docs. |
| // - There's no need to reimplement parts of the type checker in |
| // JavaScript. The Rust backend does the checking, and includes its |
| // results in the file. |
| // - Docs defined directly on the type alias are dropped directly in the |
| // HTML by `render_assoc_items`, and are accessible without JavaScript. |
| // The JSONP file will not list impl items that are known to be part |
| // of the main HTML file already. |
| // |
| // [JSONP]: https://en.wikipedia.org/wiki/JSONP |
| // [^115718]: https://github.com/rust-lang/rust/issues/115718 |
| let cloned_shared = Rc::clone(&cx.shared); |
| let cache = &cloned_shared.cache; |
| if let Some(target_did) = t.type_.def_id(cache) && |
| let get_extern = { || cache.external_paths.get(&target_did) } && |
| let Some(&(ref target_fqp, target_type)) = cache.paths.get(&target_did).or_else(get_extern) && |
| target_type.is_adt() && // primitives cannot be inlined |
| let Some(self_did) = it.item_id.as_def_id() && |
| let get_local = { || cache.paths.get(&self_did).map(|(p, _)| p) } && |
| let Some(self_fqp) = cache.exact_paths.get(&self_did).or_else(get_local) |
| { |
| let mut js_src_path: UrlPartsBuilder = std::iter::repeat("..") |
| .take(cx.current.len()) |
| .chain(std::iter::once("type.impl")) |
| .collect(); |
| js_src_path.extend(target_fqp[..target_fqp.len() - 1].iter().copied()); |
| js_src_path.push_fmt(format_args!("{target_type}.{}.js", target_fqp.last().unwrap())); |
| let self_path = self_fqp.iter().map(Symbol::as_str).collect::<Vec<&str>>().join("::"); |
| write!( |
| w, |
| "<script src=\"{src}\" data-self-path=\"{self_path}\" async></script>", |
| src = js_src_path.finish(), |
| ); |
| } |
| } |
| |
| fn item_union(w: &mut Buffer, cx: &mut Context<'_>, it: &clean::Item, s: &clean::Union) { |
| item_template!( |
| #[template(path = "item_union.html")] |
| struct ItemUnion<'a, 'cx> { |
| cx: RefCell<&'a mut Context<'cx>>, |
| it: &'a clean::Item, |
| s: &'a clean::Union, |
| }, |
| methods = [document, document_type_layout, render_attributes_in_pre, render_assoc_items] |
| ); |
| |
| impl<'a, 'cx: 'a> ItemUnion<'a, 'cx> { |
| fn render_union<'b>(&'b self) -> impl fmt::Display + Captures<'a> + 'b + Captures<'cx> { |
| display_fn(move |f| { |
| let cx = self.cx.borrow_mut(); |
| let v = render_union(self.it, Some(&self.s.generics), &self.s.fields, *cx); |
| write!(f, "{v}") |
| }) |
| } |
| |
| fn document_field<'b>( |
| &'b self, |
| field: &'a clean::Item, |
| ) -> impl fmt::Display + Captures<'a> + 'b + Captures<'cx> { |
| display_fn(move |f| { |
| let mut cx = self.cx.borrow_mut(); |
| let v = document(*cx, field, Some(self.it), HeadingOffset::H3); |
| write!(f, "{v}") |
| }) |
| } |
| |
| fn stability_field(&self, field: &clean::Item) -> Option<String> { |
| let cx = self.cx.borrow(); |
| field.stability_class(cx.tcx()) |
| } |
| |
| fn print_ty<'b>( |
| &'b self, |
| ty: &'a clean::Type, |
| ) -> impl fmt::Display + Captures<'a> + 'b + Captures<'cx> { |
| display_fn(move |f| { |
| let cx = self.cx.borrow(); |
| let v = ty.print(*cx); |
| write!(f, "{v}") |
| }) |
| } |
| |
| fn fields_iter( |
| &self, |
| ) -> std::iter::Peekable<impl Iterator<Item = (&'a clean::Item, &'a clean::Type)>> { |
| self.s |
| .fields |
| .iter() |
| .filter_map(|f| match *f.kind { |
| clean::StructFieldItem(ref ty) => Some((f, ty)), |
| _ => None, |
| }) |
| .peekable() |
| } |
| } |
| |
| ItemUnion { cx: RefCell::new(cx), it, s }.render_into(w).unwrap(); |
| } |
| |
| fn print_tuple_struct_fields<'a, 'cx: 'a>( |
| cx: &'a Context<'cx>, |
| s: &'a [clean::Item], |
| ) -> impl fmt::Display + 'a + Captures<'cx> { |
| display_fn(|f| { |
| if !s.is_empty() |
| && s.iter().all(|field| { |
| matches!(*field.kind, clean::StrippedItem(box clean::StructFieldItem(..))) |
| }) |
| { |
| return f.write_str("<span class=\"comment\">/* private fields */</span>"); |
| } |
| |
| for (i, ty) in s.iter().enumerate() { |
| if i > 0 { |
| f.write_str(", ")?; |
| } |
| match *ty.kind { |
| clean::StrippedItem(box clean::StructFieldItem(_)) => f.write_str("_")?, |
| clean::StructFieldItem(ref ty) => write!(f, "{}", ty.print(cx))?, |
| _ => unreachable!(), |
| } |
| } |
| Ok(()) |
| }) |
| } |
| |
| fn item_enum(w: &mut Buffer, cx: &mut Context<'_>, it: &clean::Item, e: &clean::Enum) { |
| let count_variants = e.variants().count(); |
| wrap_item(w, |w| { |
| render_attributes_in_code(w, it, cx); |
| write!( |
| w, |
| "{}enum {}{}", |
| visibility_print_with_space(it, cx), |
| it.name.unwrap(), |
| e.generics.print(cx), |
| ); |
| |
| render_enum_fields( |
| w, |
| cx, |
| Some(&e.generics), |
| &e.variants, |
| count_variants, |
| e.has_stripped_entries(), |
| it.is_non_exhaustive(), |
| it.def_id().unwrap(), |
| ); |
| }); |
| |
| write!(w, "{}", document(cx, it, None, HeadingOffset::H2)); |
| |
| if count_variants != 0 { |
| item_variants(w, cx, it, &e.variants, it.def_id().unwrap()); |
| } |
| let def_id = it.item_id.expect_def_id(); |
| write!(w, "{}", render_assoc_items(cx, it, def_id, AssocItemRender::All)); |
| write!(w, "{}", document_type_layout(cx, def_id)); |
| } |
| |
| /// It'll return false if any variant is not a C-like variant. Otherwise it'll return true if at |
| /// least one of them has an explicit discriminant or if the enum has `#[repr(C)]` or an integer |
| /// `repr`. |
| fn should_show_enum_discriminant( |
| cx: &Context<'_>, |
| enum_def_id: DefId, |
| variants: &IndexVec<VariantIdx, clean::Item>, |
| ) -> bool { |
| let mut has_variants_with_value = false; |
| for variant in variants { |
| if let clean::VariantItem(ref var) = *variant.kind |
| && matches!(var.kind, clean::VariantKind::CLike) |
| { |
| has_variants_with_value |= var.discriminant.is_some(); |
| } else { |
| return false; |
| } |
| } |
| if has_variants_with_value { |
| return true; |
| } |
| let repr = cx.tcx().adt_def(enum_def_id).repr(); |
| repr.c() || repr.int.is_some() |
| } |
| |
| fn display_c_like_variant( |
| w: &mut Buffer, |
| cx: &mut Context<'_>, |
| item: &clean::Item, |
| variant: &clean::Variant, |
| index: VariantIdx, |
| should_show_enum_discriminant: bool, |
| enum_def_id: DefId, |
| ) { |
| let name = item.name.unwrap(); |
| if let Some(ref value) = variant.discriminant { |
| write!(w, "{} = {}", name.as_str(), value.value(cx.tcx(), true)); |
| } else if should_show_enum_discriminant { |
| let adt_def = cx.tcx().adt_def(enum_def_id); |
| let discr = adt_def.discriminant_for_variant(cx.tcx(), index); |
| if discr.ty.is_signed() { |
| write!(w, "{} = {}", name.as_str(), discr.val as i128); |
| } else { |
| write!(w, "{} = {}", name.as_str(), discr.val); |
| } |
| } else { |
| w.write_str(name.as_str()); |
| } |
| } |
| |
| fn render_enum_fields( |
| mut w: &mut Buffer, |
| cx: &mut Context<'_>, |
| g: Option<&clean::Generics>, |
| variants: &IndexVec<VariantIdx, clean::Item>, |
| count_variants: usize, |
| has_stripped_entries: bool, |
| is_non_exhaustive: bool, |
| enum_def_id: DefId, |
| ) { |
| let should_show_enum_discriminant = should_show_enum_discriminant(cx, enum_def_id, variants); |
| if !g.is_some_and(|g| print_where_clause_and_check(w, g, cx)) { |
| // If there wasn't a `where` clause, we add a whitespace. |
| w.write_str(" "); |
| } |
| |
| let variants_stripped = has_stripped_entries; |
| if count_variants == 0 && !variants_stripped { |
| w.write_str("{}"); |
| } else { |
| w.write_str("{\n"); |
| let toggle = should_hide_fields(count_variants); |
| if toggle { |
| toggle_open(&mut w, format_args!("{count_variants} variants")); |
| } |
| const TAB: &str = " "; |
| for (index, v) in variants.iter_enumerated() { |
| if v.is_stripped() { |
| continue; |
| } |
| w.write_str(TAB); |
| match *v.kind { |
| clean::VariantItem(ref var) => match var.kind { |
| clean::VariantKind::CLike => display_c_like_variant( |
| w, |
| cx, |
| v, |
| var, |
| index, |
| should_show_enum_discriminant, |
| enum_def_id, |
| ), |
| clean::VariantKind::Tuple(ref s) => { |
| write!(w, "{}({})", v.name.unwrap(), print_tuple_struct_fields(cx, s)); |
| } |
| clean::VariantKind::Struct(ref s) => { |
| render_struct(w, v, None, None, &s.fields, TAB, false, cx); |
| } |
| }, |
| _ => unreachable!(), |
| } |
| w.write_str(",\n"); |
| } |
| |
| if variants_stripped && !is_non_exhaustive { |
| w.write_str(" <span class=\"comment\">// some variants omitted</span>\n"); |
| } |
| if toggle { |
| toggle_close(&mut w); |
| } |
| w.write_str("}"); |
| } |
| } |
| |
| fn item_variants( |
| w: &mut Buffer, |
| cx: &mut Context<'_>, |
| it: &clean::Item, |
| variants: &IndexVec<VariantIdx, clean::Item>, |
| enum_def_id: DefId, |
| ) { |
| let tcx = cx.tcx(); |
| write_section_heading( |
| w, |
| &format!("Variants{}", document_non_exhaustive_header(it)), |
| "variants", |
| Some("variants"), |
| format!("{}<div class=\"variants\">", document_non_exhaustive(it)), |
| ); |
| |
| let should_show_enum_discriminant = should_show_enum_discriminant(cx, enum_def_id, variants); |
| for (index, variant) in variants.iter_enumerated() { |
| if variant.is_stripped() { |
| continue; |
| } |
| let id = cx.derive_id(format!("{}.{}", ItemType::Variant, variant.name.unwrap())); |
| write!( |
| w, |
| "<section id=\"{id}\" class=\"variant\">\ |
| <a href=\"#{id}\" class=\"anchor\">§</a>", |
| ); |
| render_stability_since_raw_with_extra( |
| w, |
| variant.stable_since(tcx), |
| variant.const_stability(tcx), |
| " rightside", |
| ); |
| w.write_str("<h3 class=\"code-header\">"); |
| if let clean::VariantItem(ref var) = *variant.kind |
| && let clean::VariantKind::CLike = var.kind |
| { |
| display_c_like_variant( |
| w, |
| cx, |
| variant, |
| var, |
| index, |
| should_show_enum_discriminant, |
| enum_def_id, |
| ); |
| } else { |
| w.write_str(variant.name.unwrap().as_str()); |
| } |
| |
| let clean::VariantItem(variant_data) = &*variant.kind else { unreachable!() }; |
| |
| if let clean::VariantKind::Tuple(ref s) = variant_data.kind { |
| write!(w, "({})", print_tuple_struct_fields(cx, s)); |
| } |
| w.write_str("</h3></section>"); |
| |
| write!(w, "{}", document(cx, variant, Some(it), HeadingOffset::H4)); |
| |
| let heading_and_fields = match &variant_data.kind { |
| clean::VariantKind::Struct(s) => { |
| // If there is no field to display, no need to add the heading. |
| if s.fields.iter().any(|f| !f.is_doc_hidden()) { |
| Some(("Fields", &s.fields)) |
| } else { |
| None |
| } |
| } |
| clean::VariantKind::Tuple(fields) => { |
| // Documentation on tuple variant fields is rare, so to reduce noise we only emit |
| // the section if at least one field is documented. |
| if fields.iter().any(|f| !f.doc_value().is_empty()) { |
| Some(("Tuple Fields", fields)) |
| } else { |
| None |
| } |
| } |
| clean::VariantKind::CLike => None, |
| }; |
| |
| if let Some((heading, fields)) = heading_and_fields { |
| let variant_id = |
| cx.derive_id(format!("{}.{}.fields", ItemType::Variant, variant.name.unwrap())); |
| write!( |
| w, |
| "<div class=\"sub-variant\" id=\"{variant_id}\">\ |
| <h4>{heading}</h4>\ |
| {}", |
| document_non_exhaustive(variant) |
| ); |
| for field in fields { |
| match *field.kind { |
| clean::StrippedItem(box clean::StructFieldItem(_)) => {} |
| clean::StructFieldItem(ref ty) => { |
| let id = cx.derive_id(format!( |
| "variant.{}.field.{}", |
| variant.name.unwrap(), |
| field.name.unwrap() |
| )); |
| write!( |
| w, |
| "<div class=\"sub-variant-field\">\ |
| <span id=\"{id}\" class=\"section-header\">\ |
| <a href=\"#{id}\" class=\"anchor field\">§</a>\ |
| <code>{f}: {t}</code>\ |
| </span>", |
| f = field.name.unwrap(), |
| t = ty.print(cx), |
| ); |
| write!( |
| w, |
| "{}</div>", |
| document(cx, field, Some(variant), HeadingOffset::H5) |
| ); |
| } |
| _ => unreachable!(), |
| } |
| } |
| w.write_str("</div>"); |
| } |
| } |
| write!(w, "</div>"); |
| } |
| |
| fn item_macro(w: &mut Buffer, cx: &mut Context<'_>, it: &clean::Item, t: &clean::Macro) { |
| highlight::render_item_decl_with_highlighting(&t.source, w); |
| write!(w, "{}", document(cx, it, None, HeadingOffset::H2)) |
| } |
| |
| fn item_proc_macro( |
| w: &mut impl fmt::Write, |
| cx: &mut Context<'_>, |
| it: &clean::Item, |
| m: &clean::ProcMacro, |
| ) { |
| wrap_item(w, |buffer| { |
| let name = it.name.expect("proc-macros always have names"); |
| match m.kind { |
| MacroKind::Bang => { |
| write!(buffer, "{name}!() {{ <span class=\"comment\">/* proc-macro */</span> }}") |
| .unwrap(); |
| } |
| MacroKind::Attr => { |
| write!(buffer, "#[{name}]").unwrap(); |
| } |
| MacroKind::Derive => { |
| write!(buffer, "#[derive({name})]").unwrap(); |
| if !m.helpers.is_empty() { |
| buffer |
| .write_str( |
| "\n{\n \ |
| <span class=\"comment\">// Attributes available to this derive:</span>\n", |
| ) |
| .unwrap(); |
| for attr in &m.helpers { |
| writeln!(buffer, " #[{attr}]").unwrap(); |
| } |
| buffer.write_str("}\n").unwrap(); |
| } |
| } |
| } |
| }); |
| write!(w, "{}", document(cx, it, None, HeadingOffset::H2)).unwrap(); |
| } |
| |
| fn item_primitive(w: &mut impl fmt::Write, cx: &mut Context<'_>, it: &clean::Item) { |
| let def_id = it.item_id.expect_def_id(); |
| write!(w, "{}", document(cx, it, None, HeadingOffset::H2)).unwrap(); |
| if it.name.map(|n| n.as_str() != "reference").unwrap_or(false) { |
| write!(w, "{}", render_assoc_items(cx, it, def_id, AssocItemRender::All)).unwrap(); |
| } else { |
| // We handle the "reference" primitive type on its own because we only want to list |
| // implementations on generic types. |
| let shared = Rc::clone(&cx.shared); |
| let (concrete, synthetic, blanket_impl) = get_filtered_impls_for_reference(&shared, it); |
| |
| render_all_impls(w, cx, it, &concrete, &synthetic, &blanket_impl); |
| } |
| } |
| |
| fn item_constant( |
| w: &mut Buffer, |
| cx: &mut Context<'_>, |
| it: &clean::Item, |
| generics: &clean::Generics, |
| ty: &clean::Type, |
| c: &clean::Constant, |
| ) { |
| wrap_item(w, |w| { |
| let tcx = cx.tcx(); |
| render_attributes_in_code(w, it, cx); |
| |
| write!( |
| w, |
| "{vis}const {name}{generics}: {typ}{where_clause}", |
| vis = visibility_print_with_space(it, cx), |
| name = it.name.unwrap(), |
| generics = generics.print(cx), |
| typ = ty.print(cx), |
| where_clause = print_where_clause(&generics, cx, 0, Ending::NoNewline), |
| ); |
| |
| // FIXME: The code below now prints |
| // ` = _; // 100i32` |
| // if the expression is |
| // `50 + 50` |
| // which looks just wrong. |
| // Should we print |
| // ` = 100i32;` |
| // instead? |
| |
| let value = c.value(tcx); |
| let is_literal = c.is_literal(tcx); |
| let expr = c.expr(tcx); |
| if value.is_some() || is_literal { |
| write!(w, " = {expr};", expr = Escape(&expr)); |
| } else { |
| w.write_str(";"); |
| } |
| |
| if !is_literal { |
| if let Some(value) = &value { |
| let value_lowercase = value.to_lowercase(); |
| let expr_lowercase = expr.to_lowercase(); |
| |
| if value_lowercase != expr_lowercase |
| && value_lowercase.trim_end_matches("i32") != expr_lowercase |
| { |
| write!(w, " // {value}", value = Escape(value)); |
| } |
| } |
| } |
| }); |
| |
| write!(w, "{}", document(cx, it, None, HeadingOffset::H2)) |
| } |
| |
| fn item_struct(w: &mut Buffer, cx: &mut Context<'_>, it: &clean::Item, s: &clean::Struct) { |
| wrap_item(w, |w| { |
| render_attributes_in_code(w, it, cx); |
| render_struct(w, it, Some(&s.generics), s.ctor_kind, &s.fields, "", true, cx); |
| }); |
| |
| write!(w, "{}", document(cx, it, None, HeadingOffset::H2)); |
| |
| item_fields(w, cx, it, &s.fields, s.ctor_kind); |
| |
| let def_id = it.item_id.expect_def_id(); |
| write!(w, "{}", render_assoc_items(cx, it, def_id, AssocItemRender::All)); |
| write!(w, "{}", document_type_layout(cx, def_id)); |
| } |
| |
| fn item_fields( |
| w: &mut Buffer, |
| cx: &mut Context<'_>, |
| it: &clean::Item, |
| fields: &Vec<clean::Item>, |
| ctor_kind: Option<CtorKind>, |
| ) { |
| let mut fields = fields |
| .iter() |
| .filter_map(|f| match *f.kind { |
| clean::StructFieldItem(ref ty) => Some((f, ty)), |
| _ => None, |
| }) |
| .peekable(); |
| if let None | Some(CtorKind::Fn) = ctor_kind { |
| if fields.peek().is_some() { |
| let title = format!( |
| "{}{}", |
| if ctor_kind.is_none() { "Fields" } else { "Tuple Fields" }, |
| document_non_exhaustive_header(it), |
| ); |
| write_section_heading(w, &title, "fields", Some("fields"), document_non_exhaustive(it)); |
| for (index, (field, ty)) in fields.enumerate() { |
| let field_name = |
| field.name.map_or_else(|| index.to_string(), |sym| sym.as_str().to_string()); |
| let id = cx.derive_id(format!("{typ}.{field_name}", typ = ItemType::StructField)); |
| write!( |
| w, |
| "<span id=\"{id}\" class=\"{item_type} section-header\">\ |
| <a href=\"#{id}\" class=\"anchor field\">§</a>\ |
| <code>{field_name}: {ty}</code>\ |
| </span>", |
| item_type = ItemType::StructField, |
| ty = ty.print(cx) |
| ); |
| write!(w, "{}", document(cx, field, Some(it), HeadingOffset::H3)); |
| } |
| } |
| } |
| } |
| |
| fn item_static( |
| w: &mut impl fmt::Write, |
| cx: &mut Context<'_>, |
| it: &clean::Item, |
| s: &clean::Static, |
| safety: Option<hir::Safety>, |
| ) { |
| wrap_item(w, |buffer| { |
| render_attributes_in_code(buffer, it, cx); |
| write!( |
| buffer, |
| "{vis}{safe}static {mutability}{name}: {typ}", |
| vis = visibility_print_with_space(it, cx), |
| safe = safety |
| .map(|safe| if safe == hir::Safety::Unsafe { "unsafe " } else { "" }) |
| .unwrap_or(""), |
| mutability = s.mutability.print_with_space(), |
| name = it.name.unwrap(), |
| typ = s.type_.print(cx) |
| ) |
| .unwrap(); |
| }); |
| |
| write!(w, "{}", document(cx, it, None, HeadingOffset::H2)).unwrap(); |
| } |
| |
| fn item_foreign_type(w: &mut impl fmt::Write, cx: &mut Context<'_>, it: &clean::Item) { |
| wrap_item(w, |buffer| { |
| buffer.write_str("extern {\n").unwrap(); |
| render_attributes_in_code(buffer, it, cx); |
| write!( |
| buffer, |
| " {}type {};\n}}", |
| visibility_print_with_space(it, cx), |
| it.name.unwrap(), |
| ) |
| .unwrap(); |
| }); |
| |
| write!(w, "{}", document(cx, it, None, HeadingOffset::H2)).unwrap(); |
| write!(w, "{}", render_assoc_items(cx, it, it.item_id.expect_def_id(), AssocItemRender::All)) |
| .unwrap(); |
| } |
| |
| fn item_keyword(w: &mut Buffer, cx: &mut Context<'_>, it: &clean::Item) { |
| write!(w, "{}", document(cx, it, None, HeadingOffset::H2)) |
| } |
| |
| /// Compare two strings treating multi-digit numbers as single units (i.e. natural sort order). |
| /// |
| /// This code is copied from [`rustfmt`], and should probably be released as a crate at some point. |
| /// |
| /// [`rustfmt`]:https://github.com/rust-lang/rustfmt/blob/rustfmt-2.0.0-rc.2/src/formatting/reorder.rs#L32 |
| pub(crate) fn compare_names(left: &str, right: &str) -> Ordering { |
| let mut left = left.chars().peekable(); |
| let mut right = right.chars().peekable(); |
| |
| loop { |
| // The strings are equal so far and not inside a number in both sides |
| let (l, r) = match (left.next(), right.next()) { |
| // Is this the end of both strings? |
| (None, None) => return Ordering::Equal, |
| // If for one, the shorter one is considered smaller |
| (None, Some(_)) => return Ordering::Less, |
| (Some(_), None) => return Ordering::Greater, |
| (Some(l), Some(r)) => (l, r), |
| }; |
| let next_ordering = match (l.to_digit(10), r.to_digit(10)) { |
| // If neither is a digit, just compare them |
| (None, None) => Ord::cmp(&l, &r), |
| // The one with shorter non-digit run is smaller |
| // For `strverscmp` it's smaller iff next char in longer is greater than digits |
| (None, Some(_)) => Ordering::Greater, |
| (Some(_), None) => Ordering::Less, |
| // If both start numbers, we have to compare the numbers |
| (Some(l), Some(r)) => { |
| if l == 0 || r == 0 { |
| // Fraction mode: compare as if there was leading `0.` |
| let ordering = Ord::cmp(&l, &r); |
| if ordering != Ordering::Equal { |
| return ordering; |
| } |
| loop { |
| // Get next pair |
| let (l, r) = match (left.peek(), right.peek()) { |
| // Is this the end of both strings? |
| (None, None) => return Ordering::Equal, |
| // If for one, the shorter one is considered smaller |
| (None, Some(_)) => return Ordering::Less, |
| (Some(_), None) => return Ordering::Greater, |
| (Some(l), Some(r)) => (l, r), |
| }; |
| // Are they digits? |
| match (l.to_digit(10), r.to_digit(10)) { |
| // If out of digits, use the stored ordering due to equal length |
| (None, None) => break Ordering::Equal, |
| // If one is shorter, it's smaller |
| (None, Some(_)) => return Ordering::Less, |
| (Some(_), None) => return Ordering::Greater, |
| // If both are digits, consume them and take into account |
| (Some(l), Some(r)) => { |
| left.next(); |
| right.next(); |
| let ordering = Ord::cmp(&l, &r); |
| if ordering != Ordering::Equal { |
| return ordering; |
| } |
| } |
| } |
| } |
| } else { |
| // Integer mode |
| let mut same_length_ordering = Ord::cmp(&l, &r); |
| loop { |
| // Get next pair |
| let (l, r) = match (left.peek(), right.peek()) { |
| // Is this the end of both strings? |
| (None, None) => return same_length_ordering, |
| // If for one, the shorter one is considered smaller |
| (None, Some(_)) => return Ordering::Less, |
| (Some(_), None) => return Ordering::Greater, |
| (Some(l), Some(r)) => (l, r), |
| }; |
| // Are they digits? |
| match (l.to_digit(10), r.to_digit(10)) { |
| // If out of digits, use the stored ordering due to equal length |
| (None, None) => break same_length_ordering, |
| // If one is shorter, it's smaller |
| (None, Some(_)) => return Ordering::Less, |
| (Some(_), None) => return Ordering::Greater, |
| // If both are digits, consume them and take into account |
| (Some(l), Some(r)) => { |
| left.next(); |
| right.next(); |
| same_length_ordering = same_length_ordering.then(Ord::cmp(&l, &r)); |
| } |
| } |
| } |
| } |
| } |
| }; |
| if next_ordering != Ordering::Equal { |
| return next_ordering; |
| } |
| } |
| } |
| |
| pub(super) fn full_path(cx: &Context<'_>, item: &clean::Item) -> String { |
| let mut s = join_with_double_colon(&cx.current); |
| s.push_str("::"); |
| s.push_str(item.name.unwrap().as_str()); |
| s |
| } |
| |
| pub(super) fn item_path(ty: ItemType, name: &str) -> String { |
| match ty { |
| ItemType::Module => format!("{}index.html", ensure_trailing_slash(name)), |
| _ => format!("{ty}.{name}.html"), |
| } |
| } |
| |
| fn bounds(t_bounds: &[clean::GenericBound], trait_alias: bool, cx: &Context<'_>) -> String { |
| let mut bounds = String::new(); |
| if !t_bounds.is_empty() { |
| if !trait_alias { |
| bounds.push_str(": "); |
| } |
| for (i, p) in t_bounds.iter().enumerate() { |
| if i > 0 { |
| bounds.push_str(" + "); |
| } |
| bounds.push_str(&p.print(cx).to_string()); |
| } |
| } |
| bounds |
| } |
| |
| fn wrap_item<W, F>(w: &mut W, f: F) |
| where |
| W: fmt::Write, |
| F: FnOnce(&mut W), |
| { |
| write!(w, r#"<pre class="rust item-decl"><code>"#).unwrap(); |
| f(w); |
| write!(w, "</code></pre>").unwrap(); |
| } |
| |
| #[derive(PartialEq, Eq)] |
| struct ImplString(String); |
| |
| impl ImplString { |
| fn new(i: &Impl, cx: &Context<'_>) -> ImplString { |
| ImplString(format!("{}", i.inner_impl().print(false, cx))) |
| } |
| } |
| |
| impl PartialOrd for ImplString { |
| fn partial_cmp(&self, other: &Self) -> Option<Ordering> { |
| Some(Ord::cmp(self, other)) |
| } |
| } |
| |
| impl Ord for ImplString { |
| fn cmp(&self, other: &Self) -> Ordering { |
| compare_names(&self.0, &other.0) |
| } |
| } |
| |
| fn render_implementor( |
| cx: &mut Context<'_>, |
| implementor: &Impl, |
| trait_: &clean::Item, |
| w: &mut Buffer, |
| implementor_dups: &FxHashMap<Symbol, (DefId, bool)>, |
| aliases: &[String], |
| ) { |
| // If there's already another implementor that has the same abridged name, use the |
| // full path, for example in `std::iter::ExactSizeIterator` |
| let use_absolute = match implementor.inner_impl().for_ { |
| clean::Type::Path { ref path, .. } |
| | clean::BorrowedRef { type_: box clean::Type::Path { ref path, .. }, .. } |
| if !path.is_assoc_ty() => |
| { |
| implementor_dups[&path.last()].1 |
| } |
| _ => false, |
| }; |
| render_impl( |
| w, |
| cx, |
| implementor, |
| trait_, |
| AssocItemLink::Anchor(None), |
| RenderMode::Normal, |
| Some(use_absolute), |
| aliases, |
| ImplRenderingParameters { |
| show_def_docs: false, |
| show_default_items: false, |
| show_non_assoc_items: false, |
| toggle_open_by_default: false, |
| }, |
| ); |
| } |
| |
| fn render_union<'a, 'cx: 'a>( |
| it: &'a clean::Item, |
| g: Option<&'a clean::Generics>, |
| fields: &'a [clean::Item], |
| cx: &'a Context<'cx>, |
| ) -> impl fmt::Display + 'a + Captures<'cx> { |
| display_fn(move |mut f| { |
| write!(f, "{}union {}", visibility_print_with_space(it, cx), it.name.unwrap(),)?; |
| |
| let where_displayed = g |
| .map(|g| { |
| let mut buf = Buffer::html(); |
| write!(buf, "{}", g.print(cx)); |
| let where_displayed = print_where_clause_and_check(&mut buf, g, cx); |
| write!(f, "{buf}", buf = buf.into_inner()).unwrap(); |
| where_displayed |
| }) |
| .unwrap_or(false); |
| |
| // If there wasn't a `where` clause, we add a whitespace. |
| if !where_displayed { |
| f.write_str(" ")?; |
| } |
| |
| write!(f, "{{\n")?; |
| let count_fields = |
| fields.iter().filter(|field| matches!(*field.kind, clean::StructFieldItem(..))).count(); |
| let toggle = should_hide_fields(count_fields); |
| if toggle { |
| toggle_open(&mut f, format_args!("{count_fields} fields")); |
| } |
| |
| for field in fields { |
| if let clean::StructFieldItem(ref ty) = *field.kind { |
| write!( |
| f, |
| " {}{}: {},\n", |
| visibility_print_with_space(field, cx), |
| field.name.unwrap(), |
| ty.print(cx) |
| )?; |
| } |
| } |
| |
| if it.has_stripped_entries().unwrap() { |
| write!(f, " <span class=\"comment\">/* private fields */</span>\n")?; |
| } |
| if toggle { |
| toggle_close(&mut f); |
| } |
| f.write_str("}").unwrap(); |
| Ok(()) |
| }) |
| } |
| |
| fn render_struct( |
| w: &mut Buffer, |
| it: &clean::Item, |
| g: Option<&clean::Generics>, |
| ty: Option<CtorKind>, |
| fields: &[clean::Item], |
| tab: &str, |
| structhead: bool, |
| cx: &Context<'_>, |
| ) { |
| write!( |
| w, |
| "{}{}{}", |
| visibility_print_with_space(it, cx), |
| if structhead { "struct " } else { "" }, |
| it.name.unwrap() |
| ); |
| if let Some(g) = g { |
| write!(w, "{}", g.print(cx)) |
| } |
| render_struct_fields( |
| w, |
| g, |
| ty, |
| fields, |
| tab, |
| structhead, |
| it.has_stripped_entries().unwrap_or(false), |
| cx, |
| ) |
| } |
| |
| fn render_struct_fields( |
| mut w: &mut Buffer, |
| g: Option<&clean::Generics>, |
| ty: Option<CtorKind>, |
| fields: &[clean::Item], |
| tab: &str, |
| structhead: bool, |
| has_stripped_entries: bool, |
| cx: &Context<'_>, |
| ) { |
| match ty { |
| None => { |
| let where_displayed = |
| g.map(|g| print_where_clause_and_check(w, g, cx)).unwrap_or(false); |
| |
| // If there wasn't a `where` clause, we add a whitespace. |
| if !where_displayed { |
| w.write_str(" {"); |
| } else { |
| w.write_str("{"); |
| } |
| let count_fields = |
| fields.iter().filter(|f| matches!(*f.kind, clean::StructFieldItem(..))).count(); |
| let has_visible_fields = count_fields > 0; |
| let toggle = should_hide_fields(count_fields); |
| if toggle { |
| toggle_open(&mut w, format_args!("{count_fields} fields")); |
| } |
| for field in fields { |
| if let clean::StructFieldItem(ref ty) = *field.kind { |
| write!( |
| w, |
| "\n{tab} {vis}{name}: {ty},", |
| vis = visibility_print_with_space(field, cx), |
| name = field.name.unwrap(), |
| ty = ty.print(cx), |
| ); |
| } |
| } |
| |
| if has_visible_fields { |
| if has_stripped_entries { |
| write!(w, "\n{tab} <span class=\"comment\">/* private fields */</span>"); |
| } |
| write!(w, "\n{tab}"); |
| } else if has_stripped_entries { |
| write!(w, " <span class=\"comment\">/* private fields */</span> "); |
| } |
| if toggle { |
| toggle_close(&mut w); |
| } |
| w.write_str("}"); |
| } |
| Some(CtorKind::Fn) => { |
| w.write_str("("); |
| if !fields.is_empty() |
| && fields.iter().all(|field| { |
| matches!(*field.kind, clean::StrippedItem(box clean::StructFieldItem(..))) |
| }) |
| { |
| write!(w, "<span class=\"comment\">/* private fields */</span>"); |
| } else { |
| for (i, field) in fields.iter().enumerate() { |
| if i > 0 { |
| w.write_str(", "); |
| } |
| match *field.kind { |
| clean::StrippedItem(box clean::StructFieldItem(..)) => write!(w, "_"), |
| clean::StructFieldItem(ref ty) => { |
| write!(w, "{}{}", visibility_print_with_space(field, cx), ty.print(cx),) |
| } |
| _ => unreachable!(), |
| } |
| } |
| } |
| w.write_str(")"); |
| if let Some(g) = g { |
| write!(w, "{}", print_where_clause(g, cx, 0, Ending::NoNewline)); |
| } |
| // We only want a ";" when we are displaying a tuple struct, not a variant tuple struct. |
| if structhead { |
| w.write_str(";"); |
| } |
| } |
| Some(CtorKind::Const) => { |
| // Needed for PhantomData. |
| if let Some(g) = g { |
| write!(w, "{}", print_where_clause(g, cx, 0, Ending::NoNewline)); |
| } |
| w.write_str(";"); |
| } |
| } |
| } |
| |
| fn document_non_exhaustive_header(item: &clean::Item) -> &str { |
| if item.is_non_exhaustive() { " (Non-exhaustive)" } else { "" } |
| } |
| |
| fn document_non_exhaustive<'a>(item: &'a clean::Item) -> impl fmt::Display + 'a { |
| display_fn(|f| { |
| if item.is_non_exhaustive() { |
| write!( |
| f, |
| "<details class=\"toggle non-exhaustive\">\ |
| <summary class=\"hideme\"><span>{}</span></summary>\ |
| <div class=\"docblock\">", |
| { |
| if item.is_struct() { |
| "This struct is marked as non-exhaustive" |
| } else if item.is_enum() { |
| "This enum is marked as non-exhaustive" |
| } else if item.is_variant() { |
| "This variant is marked as non-exhaustive" |
| } else { |
| "This type is marked as non-exhaustive" |
| } |
| } |
| )?; |
| |
| if item.is_struct() { |
| f.write_str( |
| "Non-exhaustive structs could have additional fields added in future. \ |
| Therefore, non-exhaustive structs cannot be constructed in external crates \ |
| using the traditional <code>Struct { .. }</code> syntax; cannot be \ |
| matched against without a wildcard <code>..</code>; and \ |
| struct update syntax will not work.", |
| )?; |
| } else if item.is_enum() { |
| f.write_str( |
| "Non-exhaustive enums could have additional variants added in future. \ |
| Therefore, when matching against variants of non-exhaustive enums, an \ |
| extra wildcard arm must be added to account for any future variants.", |
| )?; |
| } else if item.is_variant() { |
| f.write_str( |
| "Non-exhaustive enum variants could have additional fields added in future. \ |
| Therefore, non-exhaustive enum variants cannot be constructed in external \ |
| crates and cannot be matched against.", |
| )?; |
| } else { |
| f.write_str( |
| "This type will require a wildcard arm in any match statements or constructors.", |
| )?; |
| } |
| |
| f.write_str("</div></details>")?; |
| } |
| Ok(()) |
| }) |
| } |
| |
| fn pluralize(count: usize) -> &'static str { |
| if count > 1 { "s" } else { "" } |
| } |