-// Copyright 2012-2013 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
//! This module contains the "cleaned" pieces of the AST, and the functions
//! that clean them.
-pub use self::Type::*;
-pub use self::Mutability::*;
-pub use self::ItemEnum::*;
-pub use self::SelfTy::*;
-pub use self::FunctionRetTy::*;
-pub use self::Visibility::{Public, Inherited};
-
-use rustc_target::spec::abi::Abi;
-use syntax::ast::{self, AttrStyle, Ident};
-use syntax::attr;
-use syntax::ext::base::MacroKind;
-use syntax::source_map::{dummy_spanned, Spanned};
-use syntax::ptr::P;
-use syntax::symbol::keywords::{self, Keyword};
-use syntax::symbol::InternedString;
-use syntax_pos::{self, DUMMY_SP, Pos, FileName};
-
-use rustc::mir::interpret::ConstValue;
-use rustc::middle::resolve_lifetime as rl;
-use rustc::ty::fold::TypeFolder;
-use rustc::middle::lang_items;
-use rustc::mir::interpret::GlobalId;
-use rustc::hir::{self, GenericArg, HirVec};
-use rustc::hir::def::{self, Def, CtorKind};
-use rustc::hir::def_id::{CrateNum, DefId, CRATE_DEF_INDEX, LOCAL_CRATE};
-use rustc::ty::subst::Substs;
-use rustc::ty::{self, TyCtxt, Region, RegionVid, Ty, AdtKind};
-use rustc::ty::layout::VariantIdx;
-use rustc::middle::stability;
-use rustc::util::nodemap::{FxHashMap, FxHashSet};
+mod auto_trait;
+mod blanket_impl;
+pub mod cfg;
+pub mod inline;
+mod simplify;
+pub mod types;
+pub mod utils;
+
+use rustc_ast as ast;
+use rustc_attr as attr;
+use rustc_data_structures::fx::{FxHashMap, FxHashSet};
+use rustc_hir as hir;
+use rustc_hir::def::{CtorKind, DefKind, Res};
+use rustc_hir::def_id::{CrateNum, DefId, CRATE_DEF_INDEX};
+use rustc_index::vec::{Idx, IndexVec};
+use rustc_infer::infer::region_constraints::{Constraint, RegionConstraintData};
+use rustc_middle::bug;
+use rustc_middle::middle::resolve_lifetime as rl;
+use rustc_middle::middle::stability;
+use rustc_middle::ty::fold::TypeFolder;
+use rustc_middle::ty::subst::InternalSubsts;
+use rustc_middle::ty::{self, AdtKind, Lift, Ty, TyCtxt};
+use rustc_mir::const_eval::{is_const_fn, is_min_const_fn, is_unstable_const_fn};
+use rustc_span::hygiene::MacroKind;
+use rustc_span::symbol::{kw, sym, Ident, Symbol};
+use rustc_span::{self, Pos};
use rustc_typeck::hir_ty_to_ty;
-use rustc::infer::region_constraints::{RegionConstraintData, Constraint};
-use rustc_data_structures::indexed_vec::{IndexVec, Idx};
use std::collections::hash_map::Entry;
-use std::fmt;
-use std::hash::{Hash, Hasher};
use std::default::Default;
-use std::{mem, slice, vec};
-use std::iter::{FromIterator, once};
-use rustc_data_structures::sync::Lrc;
+use std::hash::Hash;
use std::rc::Rc;
-use std::str::FromStr;
-use std::cell::RefCell;
-use std::sync::Arc;
-use std::u32;
-
-use parking_lot::ReentrantMutex;
+use std::{mem, vec};
-use core::{self, DocContext};
-use doctree;
-use visit_ast;
-use html::render::{cache, ExternalLocation};
-use html::item_type::ItemType;
+use crate::core::{self, DocContext, ImplTraitParam};
+use crate::doctree;
-pub mod inline;
-pub mod cfg;
-mod simplify;
-mod auto_trait;
-mod blanket_impl;
-pub mod def_ctor;
-
-use self::cfg::Cfg;
-use self::auto_trait::AutoTraitFinder;
-use self::blanket_impl::BlanketImplFinder;
+use utils::*;
-thread_local!(pub static MAX_DEF_ID: RefCell<FxHashMap<CrateNum, DefId>> = Default::default());
+pub use utils::{get_auto_trait_and_blanket_impls, krate, register_res};
-const FN_OUTPUT_NAME: &'static str = "Output";
+pub use self::types::FnRetTy::*;
+pub use self::types::ItemEnum::*;
+pub use self::types::SelfTy::*;
+pub use self::types::Type::*;
+pub use self::types::Visibility::{Inherited, Public};
+pub use self::types::*;
-// extract the stability index for a node from tcx, if possible
-fn get_stability(cx: &DocContext, def_id: DefId) -> Option<Stability> {
- cx.tcx.lookup_stability(def_id).clean(cx)
-}
-
-fn get_deprecation(cx: &DocContext, def_id: DefId) -> Option<Deprecation> {
- cx.tcx.lookup_deprecation(def_id).clean(cx)
-}
+const FN_OUTPUT_NAME: &str = "Output";
pub trait Clean<T> {
- fn clean(&self, cx: &DocContext) -> T;
+ fn clean(&self, cx: &DocContext<'_>) -> T;
}
impl<T: Clean<U>, U> Clean<Vec<U>> for [T] {
- fn clean(&self, cx: &DocContext) -> Vec<U> {
+ fn clean(&self, cx: &DocContext<'_>) -> Vec<U> {
self.iter().map(|x| x.clean(cx)).collect()
}
}
impl<T: Clean<U>, U, V: Idx> Clean<IndexVec<V, U>> for IndexVec<V, T> {
- fn clean(&self, cx: &DocContext) -> IndexVec<V, U> {
+ fn clean(&self, cx: &DocContext<'_>) -> IndexVec<V, U> {
self.iter().map(|x| x.clean(cx)).collect()
}
}
-impl<T: Clean<U>, U> Clean<U> for P<T> {
- fn clean(&self, cx: &DocContext) -> U {
+impl<T: Clean<U>, U> Clean<U> for &T {
+ fn clean(&self, cx: &DocContext<'_>) -> U {
(**self).clean(cx)
}
}
impl<T: Clean<U>, U> Clean<U> for Rc<T> {
- fn clean(&self, cx: &DocContext) -> U {
+ fn clean(&self, cx: &DocContext<'_>) -> U {
(**self).clean(cx)
}
}
impl<T: Clean<U>, U> Clean<Option<U>> for Option<T> {
- fn clean(&self, cx: &DocContext) -> Option<U> {
+ fn clean(&self, cx: &DocContext<'_>) -> Option<U> {
self.as_ref().map(|v| v.clean(cx))
}
}
-impl<T, U> Clean<U> for ty::Binder<T> where T: Clean<U> {
- fn clean(&self, cx: &DocContext) -> U {
- self.skip_binder().clean(cx)
- }
-}
-
-impl<T: Clean<U>, U> Clean<Vec<U>> for P<[T]> {
- fn clean(&self, cx: &DocContext) -> Vec<U> {
- self.iter().map(|x| x.clean(cx)).collect()
- }
-}
-
-#[derive(Clone, Debug)]
-pub struct Crate {
- pub name: String,
- pub version: Option<String>,
- pub src: FileName,
- pub module: Option<Item>,
- pub externs: Vec<(CrateNum, ExternalCrate)>,
- pub primitives: Vec<(DefId, PrimitiveType, Attributes)>,
- // These are later on moved into `CACHEKEY`, leaving the map empty.
- // Only here so that they can be filtered through the rustdoc passes.
- pub external_traits: Arc<ReentrantMutex<RefCell<FxHashMap<DefId, Trait>>>>,
- pub masked_crates: FxHashSet<CrateNum>,
-}
-
-impl<'a, 'tcx, 'rcx, 'cstore> Clean<Crate> for visit_ast::RustdocVisitor<'a, 'tcx, 'rcx, 'cstore> {
- fn clean(&self, cx: &DocContext) -> Crate {
- use ::visit_lib::LibEmbargoVisitor;
-
- {
- let mut r = cx.renderinfo.borrow_mut();
- r.deref_trait_did = cx.tcx.lang_items().deref_trait();
- r.deref_mut_trait_did = cx.tcx.lang_items().deref_mut_trait();
- r.owned_box_did = cx.tcx.lang_items().owned_box();
- }
-
- let mut externs = Vec::new();
- for &cnum in cx.tcx.crates().iter() {
- externs.push((cnum, cnum.clean(cx)));
- // Analyze doc-reachability for extern items
- LibEmbargoVisitor::new(cx).visit_lib(cnum);
- }
- externs.sort_by(|&(a, _), &(b, _)| a.cmp(&b));
-
- // Clean the crate, translating the entire libsyntax AST to one that is
- // understood by rustdoc.
- let mut module = self.module.clean(cx);
- let mut masked_crates = FxHashSet::default();
-
- match module.inner {
- ModuleItem(ref module) => {
- for it in &module.items {
- if it.is_extern_crate() && it.attrs.has_doc_flag("masked") {
- masked_crates.insert(it.def_id.krate);
- }
- }
- }
- _ => unreachable!(),
- }
-
- let ExternalCrate { name, src, primitives, keywords, .. } = LOCAL_CRATE.clean(cx);
- {
- let m = match module.inner {
- ModuleItem(ref mut m) => m,
- _ => unreachable!(),
- };
- m.items.extend(primitives.iter().map(|&(def_id, prim, ref attrs)| {
- Item {
- source: Span::empty(),
- name: Some(prim.to_url_str().to_string()),
- attrs: attrs.clone(),
- visibility: Some(Public),
- stability: get_stability(cx, def_id),
- deprecation: get_deprecation(cx, def_id),
- def_id,
- inner: PrimitiveItem(prim),
- }
- }));
- m.items.extend(keywords.into_iter().map(|(def_id, kw, attrs)| {
- Item {
- source: Span::empty(),
- name: Some(kw.clone()),
- attrs: attrs,
- visibility: Some(Public),
- stability: get_stability(cx, def_id),
- deprecation: get_deprecation(cx, def_id),
- def_id,
- inner: KeywordItem(kw),
- }
- }));
- }
-
- Crate {
- name,
- version: None,
- src,
- module: Some(module),
- externs,
- primitives,
- external_traits: cx.external_traits.clone(),
- masked_crates,
- }
- }
-}
-
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug)]
-pub struct ExternalCrate {
- pub name: String,
- pub src: FileName,
- pub attrs: Attributes,
- pub primitives: Vec<(DefId, PrimitiveType, Attributes)>,
- pub keywords: Vec<(DefId, String, Attributes)>,
-}
-
impl Clean<ExternalCrate> for CrateNum {
- fn clean(&self, cx: &DocContext) -> ExternalCrate {
+ fn clean(&self, cx: &DocContext<'_>) -> ExternalCrate {
let root = DefId { krate: *self, index: CRATE_DEF_INDEX };
let krate_span = cx.tcx.def_span(root);
let krate_src = cx.sess().source_map().span_to_filename(krate_span);
// Also note that this does not attempt to deal with modules tagged
// duplicately for the same primitive. This is handled later on when
// rendering by delegating everything to a hash map.
- let as_primitive = |def: Def| {
- if let Def::Mod(def_id) = def {
+ let as_primitive = |res: Res| {
+ if let Res::Def(DefKind::Mod, def_id) = res {
let attrs = cx.tcx.get_attrs(def_id).clean(cx);
let mut prim = None;
- for attr in attrs.lists("doc") {
+ for attr in attrs.lists(sym::doc) {
if let Some(v) = attr.value_str() {
- if attr.check_name("primitive") {
- prim = PrimitiveType::from_str(&v.as_str());
+ if attr.has_name(sym::primitive) {
+ prim = PrimitiveType::from_symbol(v);
if prim.is_some() {
break;
}
None
};
let primitives = if root.is_local() {
- cx.tcx.hir.krate().module.item_ids.iter().filter_map(|&id| {
- let item = cx.tcx.hir.expect_item(id.id);
- match item.node {
- hir::ItemKind::Mod(_) => {
- as_primitive(Def::Mod(cx.tcx.hir.local_def_id(id.id)))
- }
- hir::ItemKind::Use(ref path, hir::UseKind::Single)
- if item.vis.node.is_pub() => {
- as_primitive(path.def).map(|(_, prim, attrs)| {
- // Pretend the primitive is local.
- (cx.tcx.hir.local_def_id(id.id), prim, attrs)
- })
+ cx.tcx
+ .hir()
+ .krate()
+ .item
+ .module
+ .item_ids
+ .iter()
+ .filter_map(|&id| {
+ let item = cx.tcx.hir().expect_item(id.id);
+ match item.kind {
+ hir::ItemKind::Mod(_) => as_primitive(Res::Def(
+ DefKind::Mod,
+ cx.tcx.hir().local_def_id(id.id).to_def_id(),
+ )),
+ hir::ItemKind::Use(ref path, hir::UseKind::Single)
+ if item.vis.node.is_pub() =>
+ {
+ as_primitive(path.res).map(|(_, prim, attrs)| {
+ // Pretend the primitive is local.
+ (cx.tcx.hir().local_def_id(id.id).to_def_id(), prim, attrs)
+ })
+ }
+ _ => None,
}
- _ => None
- }
- }).collect()
+ })
+ .collect()
} else {
- cx.tcx.item_children(root).iter().map(|item| item.def)
- .filter_map(as_primitive).collect()
+ cx.tcx
+ .item_children(root)
+ .iter()
+ .map(|item| item.res)
+ .filter_map(as_primitive)
+ .collect()
};
- let as_keyword = |def: Def| {
- if let Def::Mod(def_id) = def {
+ let as_keyword = |res: Res| {
+ if let Res::Def(DefKind::Mod, def_id) = res {
let attrs = cx.tcx.get_attrs(def_id).clean(cx);
let mut keyword = None;
- for attr in attrs.lists("doc") {
+ for attr in attrs.lists(sym::doc) {
if let Some(v) = attr.value_str() {
- if attr.check_name("keyword") {
- keyword = Keyword::from_str(&v.as_str()).ok()
- .map(|x| x.name().to_string());
- if keyword.is_some() {
- break
+ if attr.has_name(sym::keyword) {
+ if v.is_doc_keyword() {
+ keyword = Some(v.to_string());
+ break;
}
// FIXME: should warn on unknown keywords?
}
None
};
let keywords = if root.is_local() {
- cx.tcx.hir.krate().module.item_ids.iter().filter_map(|&id| {
- let item = cx.tcx.hir.expect_item(id.id);
- match item.node {
- hir::ItemKind::Mod(_) => {
- as_keyword(Def::Mod(cx.tcx.hir.local_def_id(id.id)))
- }
- hir::ItemKind::Use(ref path, hir::UseKind::Single)
- if item.vis.node.is_pub() => {
- as_keyword(path.def).map(|(_, prim, attrs)| {
- (cx.tcx.hir.local_def_id(id.id), prim, attrs)
- })
+ cx.tcx
+ .hir()
+ .krate()
+ .item
+ .module
+ .item_ids
+ .iter()
+ .filter_map(|&id| {
+ let item = cx.tcx.hir().expect_item(id.id);
+ match item.kind {
+ hir::ItemKind::Mod(_) => as_keyword(Res::Def(
+ DefKind::Mod,
+ cx.tcx.hir().local_def_id(id.id).to_def_id(),
+ )),
+ hir::ItemKind::Use(ref path, hir::UseKind::Single)
+ if item.vis.node.is_pub() =>
+ {
+ as_keyword(path.res).map(|(_, prim, attrs)| {
+ (cx.tcx.hir().local_def_id(id.id).to_def_id(), prim, attrs)
+ })
+ }
+ _ => None,
}
- _ => None
- }
- }).collect()
+ })
+ .collect()
} else {
- cx.tcx.item_children(root).iter().map(|item| item.def)
- .filter_map(as_keyword).collect()
+ cx.tcx.item_children(root).iter().map(|item| item.res).filter_map(as_keyword).collect()
};
ExternalCrate {
}
}
-/// Anything with a source location and set of attributes and, optionally, a
-/// name. That is, anything that can be documented. This doesn't correspond
-/// directly to the AST's concept of an item; it's a strict superset.
-#[derive(Clone, RustcEncodable, RustcDecodable)]
-pub struct Item {
- /// Stringified span
- pub source: Span,
- /// Not everything has a name. E.g., impls
- pub name: Option<String>,
- pub attrs: Attributes,
- pub inner: ItemEnum,
- pub visibility: Option<Visibility>,
- pub def_id: DefId,
- pub stability: Option<Stability>,
- pub deprecation: Option<Deprecation>,
-}
-
-impl fmt::Debug for Item {
- fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
-
- let fake = MAX_DEF_ID.with(|m| m.borrow().get(&self.def_id.krate)
- .map(|id| self.def_id >= *id).unwrap_or(false));
- let def_id: &dyn fmt::Debug = if fake { &"**FAKE**" } else { &self.def_id };
-
- fmt.debug_struct("Item")
- .field("source", &self.source)
- .field("name", &self.name)
- .field("attrs", &self.attrs)
- .field("inner", &self.inner)
- .field("visibility", &self.visibility)
- .field("def_id", def_id)
- .field("stability", &self.stability)
- .field("deprecation", &self.deprecation)
- .finish()
- }
-}
-
-impl Item {
- /// Finds the `doc` attribute as a NameValue and returns the corresponding
- /// value found.
- pub fn doc_value<'a>(&'a self) -> Option<&'a str> {
- self.attrs.doc_value()
- }
- /// Finds all `doc` attributes as NameValues and returns their corresponding values, joined
- /// with newlines.
- pub fn collapsed_doc_value(&self) -> Option<String> {
- self.attrs.collapsed_doc_value()
- }
-
- pub fn links(&self) -> Vec<(String, String)> {
- self.attrs.links(&self.def_id.krate)
- }
-
- pub fn is_crate(&self) -> bool {
- match self.inner {
- StrippedItem(box ModuleItem(Module { is_crate: true, ..})) |
- ModuleItem(Module { is_crate: true, ..}) => true,
- _ => false,
- }
- }
- pub fn is_mod(&self) -> bool {
- self.type_() == ItemType::Module
- }
- pub fn is_trait(&self) -> bool {
- self.type_() == ItemType::Trait
- }
- pub fn is_struct(&self) -> bool {
- self.type_() == ItemType::Struct
- }
- pub fn is_enum(&self) -> bool {
- self.type_() == ItemType::Enum
- }
- pub fn is_associated_type(&self) -> bool {
- self.type_() == ItemType::AssociatedType
- }
- pub fn is_associated_const(&self) -> bool {
- self.type_() == ItemType::AssociatedConst
- }
- pub fn is_method(&self) -> bool {
- self.type_() == ItemType::Method
- }
- pub fn is_ty_method(&self) -> bool {
- self.type_() == ItemType::TyMethod
- }
- pub fn is_typedef(&self) -> bool {
- self.type_() == ItemType::Typedef
- }
- pub fn is_primitive(&self) -> bool {
- self.type_() == ItemType::Primitive
- }
- pub fn is_union(&self) -> bool {
- self.type_() == ItemType::Union
- }
- pub fn is_import(&self) -> bool {
- self.type_() == ItemType::Import
- }
- pub fn is_extern_crate(&self) -> bool {
- self.type_() == ItemType::ExternCrate
- }
- pub fn is_keyword(&self) -> bool {
- self.type_() == ItemType::Keyword
- }
-
- pub fn is_stripped(&self) -> bool {
- match self.inner { StrippedItem(..) => true, _ => false }
- }
- pub fn has_stripped_fields(&self) -> Option<bool> {
- match self.inner {
- StructItem(ref _struct) => Some(_struct.fields_stripped),
- UnionItem(ref union) => Some(union.fields_stripped),
- VariantItem(Variant { kind: VariantKind::Struct(ref vstruct)} ) => {
- Some(vstruct.fields_stripped)
- },
- _ => None,
- }
- }
-
- pub fn stability_class(&self) -> Option<String> {
- self.stability.as_ref().and_then(|ref s| {
- let mut classes = Vec::with_capacity(2);
-
- if s.level == stability::Unstable {
- classes.push("unstable");
- }
-
- if !s.deprecated_since.is_empty() {
- classes.push("deprecated");
- }
-
- if classes.len() != 0 {
- Some(classes.join(" "))
- } else {
- None
- }
- })
- }
-
- pub fn stable_since(&self) -> Option<&str> {
- self.stability.as_ref().map(|s| &s.since[..])
- }
-
- pub fn is_non_exhaustive(&self) -> bool {
- self.attrs.other_attrs.iter()
- .any(|a| a.name().as_str() == "non_exhaustive")
- }
-
- /// Returns a documentation-level item type from the item.
- pub fn type_(&self) -> ItemType {
- ItemType::from(self)
- }
-}
-
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug)]
-pub enum ItemEnum {
- ExternCrateItem(String, Option<String>),
- ImportItem(Import),
- StructItem(Struct),
- UnionItem(Union),
- EnumItem(Enum),
- FunctionItem(Function),
- ModuleItem(Module),
- TypedefItem(Typedef, bool /* is associated type */),
- ExistentialItem(Existential, bool /* is associated type */),
- StaticItem(Static),
- ConstantItem(Constant),
- TraitItem(Trait),
- ImplItem(Impl),
- /// A method signature only. Used for required methods in traits (ie,
- /// non-default-methods).
- TyMethodItem(TyMethod),
- /// A method with a body.
- MethodItem(Method),
- StructFieldItem(Type),
- VariantItem(Variant),
- /// `fn`s from an extern block
- ForeignFunctionItem(Function),
- /// `static`s from an extern block
- ForeignStaticItem(Static),
- /// `type`s from an extern block
- ForeignTypeItem,
- MacroItem(Macro),
- ProcMacroItem(ProcMacro),
- PrimitiveItem(PrimitiveType),
- AssociatedConstItem(Type, Option<String>),
- AssociatedTypeItem(Vec<GenericBound>, Option<Type>),
- /// An item that has been stripped by a rustdoc pass
- StrippedItem(Box<ItemEnum>),
- KeywordItem(String),
-}
-
-impl ItemEnum {
- pub fn generics(&self) -> Option<&Generics> {
- Some(match *self {
- ItemEnum::StructItem(ref s) => &s.generics,
- ItemEnum::EnumItem(ref e) => &e.generics,
- ItemEnum::FunctionItem(ref f) => &f.generics,
- ItemEnum::TypedefItem(ref t, _) => &t.generics,
- ItemEnum::ExistentialItem(ref t, _) => &t.generics,
- ItemEnum::TraitItem(ref t) => &t.generics,
- ItemEnum::ImplItem(ref i) => &i.generics,
- ItemEnum::TyMethodItem(ref i) => &i.generics,
- ItemEnum::MethodItem(ref i) => &i.generics,
- ItemEnum::ForeignFunctionItem(ref f) => &f.generics,
- _ => return None,
- })
- }
-
- pub fn is_associated(&self) -> bool {
- match *self {
- ItemEnum::TypedefItem(_, _) |
- ItemEnum::AssociatedTypeItem(_, _) => true,
- _ => false,
- }
- }
-}
-
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug)]
-pub struct Module {
- pub items: Vec<Item>,
- pub is_crate: bool,
-}
-
-impl Clean<Item> for doctree::Module {
- fn clean(&self, cx: &DocContext) -> Item {
+impl Clean<Item> for doctree::Module<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Item {
let name = if self.name.is_some() {
self.name.expect("No name provided").clean(cx)
} else {
let attrs = self.attrs.clean(cx);
let mut items: Vec<Item> = vec![];
- items.extend(self.extern_crates.iter().map(|x| x.clean(cx)));
+ items.extend(self.extern_crates.iter().flat_map(|x| x.clean(cx)));
items.extend(self.imports.iter().flat_map(|x| x.clean(cx)));
items.extend(self.structs.iter().map(|x| x.clean(cx)));
items.extend(self.unions.iter().map(|x| x.clean(cx)));
items.extend(self.enums.iter().map(|x| x.clean(cx)));
items.extend(self.fns.iter().map(|x| x.clean(cx)));
- items.extend(self.foreigns.iter().flat_map(|x| x.clean(cx)));
+ items.extend(self.foreigns.iter().map(|x| x.clean(cx)));
items.extend(self.mods.iter().map(|x| x.clean(cx)));
items.extend(self.typedefs.iter().map(|x| x.clean(cx)));
- items.extend(self.existentials.iter().map(|x| x.clean(cx)));
+ items.extend(self.opaque_tys.iter().map(|x| x.clean(cx)));
items.extend(self.statics.iter().map(|x| x.clean(cx)));
items.extend(self.constants.iter().map(|x| x.clean(cx)));
items.extend(self.traits.iter().map(|x| x.clean(cx)));
items.extend(self.impls.iter().flat_map(|x| x.clean(cx)));
items.extend(self.macros.iter().map(|x| x.clean(cx)));
items.extend(self.proc_macros.iter().map(|x| x.clean(cx)));
+ items.extend(self.trait_aliases.iter().map(|x| x.clean(cx)));
// determine if we should display the inner contents or
// the outer `mod` item for the source code.
- let whence = {
- let cm = cx.sess().source_map();
- let outer = cm.lookup_char_pos(self.where_outer.lo());
- let inner = cm.lookup_char_pos(self.where_inner.lo());
+ let span = {
+ let sm = cx.sess().source_map();
+ let outer = sm.lookup_char_pos(self.where_outer.lo());
+ let inner = sm.lookup_char_pos(self.where_inner.lo());
if outer.file.start_pos == inner.file.start_pos {
// mod foo { ... }
self.where_outer
Item {
name: Some(name),
attrs,
- source: whence.clean(cx),
+ source: span.clean(cx),
visibility: self.vis.clean(cx),
- stability: self.stab.clean(cx),
- deprecation: self.depr.clean(cx),
- def_id: cx.tcx.hir.local_def_id(self.id),
- inner: ModuleItem(Module {
- is_crate: self.is_crate,
- items,
- })
- }
- }
-}
-
-pub struct ListAttributesIter<'a> {
- attrs: slice::Iter<'a, ast::Attribute>,
- current_list: vec::IntoIter<ast::NestedMetaItem>,
- name: &'a str
-}
-
-impl<'a> Iterator for ListAttributesIter<'a> {
- type Item = ast::NestedMetaItem;
-
- fn next(&mut self) -> Option<Self::Item> {
- if let Some(nested) = self.current_list.next() {
- return Some(nested);
- }
-
- for attr in &mut self.attrs {
- if let Some(list) = attr.meta_item_list() {
- if attr.check_name(self.name) {
- self.current_list = list.into_iter();
- if let Some(nested) = self.current_list.next() {
- return Some(nested);
- }
- }
- }
- }
-
- None
- }
-
- fn size_hint(&self) -> (usize, Option<usize>) {
- let lower = self.current_list.len();
- (lower, None)
- }
-}
-
-pub trait AttributesExt {
- /// Finds an attribute as List and returns the list of attributes nested inside.
- fn lists<'a>(&'a self, name: &'a str) -> ListAttributesIter<'a>;
-}
-
-impl AttributesExt for [ast::Attribute] {
- fn lists<'a>(&'a self, name: &'a str) -> ListAttributesIter<'a> {
- ListAttributesIter {
- attrs: self.iter(),
- current_list: Vec::new().into_iter(),
- name,
- }
- }
-}
-
-pub trait NestedAttributesExt {
- /// Returns whether the attribute list contains a specific `Word`
- fn has_word(self, word: &str) -> bool;
-}
-
-impl<I: IntoIterator<Item=ast::NestedMetaItem>> NestedAttributesExt for I {
- fn has_word(self, word: &str) -> bool {
- self.into_iter().any(|attr| attr.is_word() && attr.check_name(word))
- }
-}
-
-/// A portion of documentation, extracted from a `#[doc]` attribute.
-///
-/// Each variant contains the line number within the complete doc-comment where the fragment
-/// starts, as well as the Span where the corresponding doc comment or attribute is located.
-///
-/// Included files are kept separate from inline doc comments so that proper line-number
-/// information can be given when a doctest fails. Sugared doc comments and "raw" doc comments are
-/// kept separate because of issue #42760.
-#[derive(Clone, RustcEncodable, RustcDecodable, PartialEq, Eq, Debug, Hash)]
-pub enum DocFragment {
- // FIXME #44229 (misdreavus): sugared and raw doc comments can be brought back together once
- // hoedown is completely removed from rustdoc.
- /// A doc fragment created from a `///` or `//!` doc comment.
- SugaredDoc(usize, syntax_pos::Span, String),
- /// A doc fragment created from a "raw" `#[doc=""]` attribute.
- RawDoc(usize, syntax_pos::Span, String),
- /// A doc fragment created from a `#[doc(include="filename")]` attribute. Contains both the
- /// given filename and the file contents.
- Include(usize, syntax_pos::Span, String, String),
-}
-
-impl DocFragment {
- pub fn as_str(&self) -> &str {
- match *self {
- DocFragment::SugaredDoc(_, _, ref s) => &s[..],
- DocFragment::RawDoc(_, _, ref s) => &s[..],
- DocFragment::Include(_, _, _, ref s) => &s[..],
- }
- }
-
- pub fn span(&self) -> syntax_pos::Span {
- match *self {
- DocFragment::SugaredDoc(_, span, _) |
- DocFragment::RawDoc(_, span, _) |
- DocFragment::Include(_, span, _, _) => span,
+ stability: cx.stability(self.id).clean(cx),
+ deprecation: cx.deprecation(self.id).clean(cx),
+ def_id: cx.tcx.hir().local_def_id(self.id).to_def_id(),
+ inner: ModuleItem(Module { is_crate: self.is_crate, items }),
}
}
}
-impl<'a> FromIterator<&'a DocFragment> for String {
- fn from_iter<T>(iter: T) -> Self
- where
- T: IntoIterator<Item = &'a DocFragment>
- {
- iter.into_iter().fold(String::new(), |mut acc, frag| {
- if !acc.is_empty() {
- acc.push('\n');
- }
- match *frag {
- DocFragment::SugaredDoc(_, _, ref docs)
- | DocFragment::RawDoc(_, _, ref docs)
- | DocFragment::Include(_, _, _, ref docs) =>
- acc.push_str(docs),
- }
-
- acc
- })
- }
-}
-
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug, Default)]
-pub struct Attributes {
- pub doc_strings: Vec<DocFragment>,
- pub other_attrs: Vec<ast::Attribute>,
- pub cfg: Option<Arc<Cfg>>,
- pub span: Option<syntax_pos::Span>,
- /// map from Rust paths to resolved defs and potential URL fragments
- pub links: Vec<(String, Option<DefId>, Option<String>)>,
- pub inner_docs: bool,
-}
-
-impl Attributes {
- /// Extracts the content from an attribute `#[doc(cfg(content))]`.
- fn extract_cfg(mi: &ast::MetaItem) -> Option<&ast::MetaItem> {
- use syntax::ast::NestedMetaItemKind::MetaItem;
-
- if let ast::MetaItemKind::List(ref nmis) = mi.node {
- if nmis.len() == 1 {
- if let MetaItem(ref cfg_mi) = nmis[0].node {
- if cfg_mi.check_name("cfg") {
- if let ast::MetaItemKind::List(ref cfg_nmis) = cfg_mi.node {
- if cfg_nmis.len() == 1 {
- if let MetaItem(ref content_mi) = cfg_nmis[0].node {
- return Some(content_mi);
- }
- }
- }
- }
- }
- }
- }
-
- None
- }
-
- /// Reads a `MetaItem` from within an attribute, looks for whether it is a
- /// `#[doc(include="file")]`, and returns the filename and contents of the file as loaded from
- /// its expansion.
- fn extract_include(mi: &ast::MetaItem)
- -> Option<(String, String)>
- {
- mi.meta_item_list().and_then(|list| {
- for meta in list {
- if meta.check_name("include") {
- // the actual compiled `#[doc(include="filename")]` gets expanded to
- // `#[doc(include(file="filename", contents="file contents")]` so we need to
- // look for that instead
- return meta.meta_item_list().and_then(|list| {
- let mut filename: Option<String> = None;
- let mut contents: Option<String> = None;
-
- for it in list {
- if it.check_name("file") {
- if let Some(name) = it.value_str() {
- filename = Some(name.to_string());
- }
- } else if it.check_name("contents") {
- if let Some(docs) = it.value_str() {
- contents = Some(docs.to_string());
- }
- }
- }
-
- if let (Some(filename), Some(contents)) = (filename, contents) {
- Some((filename, contents))
- } else {
- None
- }
- });
- }
- }
-
- None
- })
- }
-
- pub fn has_doc_flag(&self, flag: &str) -> bool {
- for attr in &self.other_attrs {
- if !attr.check_name("doc") { continue; }
-
- if let Some(items) = attr.meta_item_list() {
- if items.iter().filter_map(|i| i.meta_item()).any(|it| it.check_name(flag)) {
- return true;
- }
- }
- }
-
- false
- }
-
- pub fn from_ast(diagnostic: &::errors::Handler,
- attrs: &[ast::Attribute]) -> Attributes {
- let mut doc_strings = vec![];
- let mut sp = None;
- let mut cfg = Cfg::True;
- let mut doc_line = 0;
-
- let other_attrs = attrs.iter().filter_map(|attr| {
- attr.with_desugared_doc(|attr| {
- if attr.check_name("doc") {
- if let Some(mi) = attr.meta() {
- if let Some(value) = mi.value_str() {
- // Extracted #[doc = "..."]
- let value = value.to_string();
- let line = doc_line;
- doc_line += value.lines().count();
-
- if attr.is_sugared_doc {
- doc_strings.push(DocFragment::SugaredDoc(line, attr.span, value));
- } else {
- doc_strings.push(DocFragment::RawDoc(line, attr.span, value));
- }
-
- if sp.is_none() {
- sp = Some(attr.span);
- }
- return None;
- } else if let Some(cfg_mi) = Attributes::extract_cfg(&mi) {
- // Extracted #[doc(cfg(...))]
- match Cfg::parse(cfg_mi) {
- Ok(new_cfg) => cfg &= new_cfg,
- Err(e) => diagnostic.span_err(e.span, e.msg),
- }
- return None;
- } else if let Some((filename, contents)) = Attributes::extract_include(&mi)
- {
- let line = doc_line;
- doc_line += contents.lines().count();
- doc_strings.push(DocFragment::Include(line,
- attr.span,
- filename,
- contents));
- }
- }
- }
- Some(attr.clone())
- })
- }).collect();
-
- // treat #[target_feature(enable = "feat")] attributes as if they were
- // #[doc(cfg(target_feature = "feat"))] attributes as well
- for attr in attrs.lists("target_feature") {
- if attr.check_name("enable") {
- if let Some(feat) = attr.value_str() {
- let meta = attr::mk_name_value_item_str(Ident::from_str("target_feature"),
- dummy_spanned(feat));
- if let Ok(feat_cfg) = Cfg::parse(&meta) {
- cfg &= feat_cfg;
- }
- }
- }
- }
-
- let inner_docs = attrs.iter()
- .filter(|a| a.check_name("doc"))
- .next()
- .map_or(true, |a| a.style == AttrStyle::Inner);
-
- Attributes {
- doc_strings,
- other_attrs,
- cfg: if cfg == Cfg::True { None } else { Some(Arc::new(cfg)) },
- span: sp,
- links: vec![],
- inner_docs,
- }
- }
-
- /// Finds the `doc` attribute as a NameValue and returns the corresponding
- /// value found.
- pub fn doc_value<'a>(&'a self) -> Option<&'a str> {
- self.doc_strings.first().map(|s| s.as_str())
- }
-
- /// Finds all `doc` attributes as NameValues and returns their corresponding values, joined
- /// with newlines.
- pub fn collapsed_doc_value(&self) -> Option<String> {
- if !self.doc_strings.is_empty() {
- Some(self.doc_strings.iter().collect())
- } else {
- None
- }
- }
-
- /// Get links as a vector
- ///
- /// Cache must be populated before call
- pub fn links(&self, krate: &CrateNum) -> Vec<(String, String)> {
- use html::format::href;
- self.links.iter().filter_map(|&(ref s, did, ref fragment)| {
- match did {
- Some(did) => {
- if let Some((mut href, ..)) = href(did) {
- if let Some(ref fragment) = *fragment {
- href.push_str("#");
- href.push_str(fragment);
- }
- Some((s.clone(), href))
- } else {
- None
- }
- }
- None => {
- if let Some(ref fragment) = *fragment {
- let cache = cache();
- let url = match cache.extern_locations.get(krate) {
- Some(&(_, ref src, ExternalLocation::Local)) =>
- src.to_str().expect("invalid file path"),
- Some(&(_, _, ExternalLocation::Remote(ref s))) => s,
- Some(&(_, _, ExternalLocation::Unknown)) | None =>
- "https://doc.rust-lang.org/nightly",
- };
- // This is a primitive so the url is done "by hand".
- Some((s.clone(),
- format!("{}{}std/primitive.{}.html",
- url,
- if !url.ends_with('/') { "/" } else { "" },
- fragment)))
- } else {
- panic!("This isn't a primitive?!");
- }
- }
- }
- }).collect()
- }
-}
-
-impl PartialEq for Attributes {
- fn eq(&self, rhs: &Self) -> bool {
- self.doc_strings == rhs.doc_strings &&
- self.cfg == rhs.cfg &&
- self.span == rhs.span &&
- self.links == rhs.links &&
- self.other_attrs.iter().map(|attr| attr.id).eq(rhs.other_attrs.iter().map(|attr| attr.id))
- }
-}
-
-impl Eq for Attributes {}
-
-impl Hash for Attributes {
- fn hash<H: Hasher>(&self, hasher: &mut H) {
- self.doc_strings.hash(hasher);
- self.cfg.hash(hasher);
- self.span.hash(hasher);
- self.links.hash(hasher);
- for attr in &self.other_attrs {
- attr.id.hash(hasher);
- }
- }
-}
-
-impl AttributesExt for Attributes {
- fn lists<'a>(&'a self, name: &'a str) -> ListAttributesIter<'a> {
- self.other_attrs.lists(name)
- }
-}
-
impl Clean<Attributes> for [ast::Attribute] {
- fn clean(&self, cx: &DocContext) -> Attributes {
+ fn clean(&self, cx: &DocContext<'_>) -> Attributes {
Attributes::from_ast(cx.sess().diagnostic(), self)
}
}
-#[derive(Clone, RustcEncodable, RustcDecodable, PartialEq, Eq, Debug, Hash)]
-pub enum GenericBound {
- TraitBound(PolyTrait, hir::TraitBoundModifier),
- Outlives(Lifetime),
-}
-
-impl GenericBound {
- fn maybe_sized(cx: &DocContext) -> GenericBound {
- let did = cx.tcx.require_lang_item(lang_items::SizedTraitLangItem);
- let empty = cx.tcx.intern_substs(&[]);
- let path = external_path(cx, &cx.tcx.item_name(did).as_str(),
- Some(did), false, vec![], empty);
- inline::record_extern_fqn(cx, did, TypeKind::Trait);
- GenericBound::TraitBound(PolyTrait {
- trait_: ResolvedPath {
- path,
- typarams: None,
- did,
- is_generic: false,
- },
- generic_params: Vec::new(),
- }, hir::TraitBoundModifier::Maybe)
- }
-
- fn is_sized_bound(&self, cx: &DocContext) -> bool {
- use rustc::hir::TraitBoundModifier as TBM;
- if let GenericBound::TraitBound(PolyTrait { ref trait_, .. }, TBM::None) = *self {
- if trait_.def_id() == cx.tcx.lang_items().sized_trait() {
- return true;
- }
- }
- false
- }
+impl Clean<GenericBound> for hir::GenericBound<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> GenericBound {
+ match *self {
+ hir::GenericBound::Outlives(lt) => GenericBound::Outlives(lt.clean(cx)),
+ hir::GenericBound::LangItemTrait(lang_item, span, _, generic_args) => {
+ let def_id = cx.tcx.require_lang_item(lang_item, Some(span));
- fn get_poly_trait(&self) -> Option<PolyTrait> {
- if let GenericBound::TraitBound(ref p, _) = *self {
- return Some(p.clone())
- }
- None
- }
+ let trait_ref = ty::TraitRef::identity(cx.tcx, def_id);
- fn get_trait_type(&self) -> Option<Type> {
- if let GenericBound::TraitBound(PolyTrait { ref trait_, .. }, _) = *self {
- return Some(trait_.clone());
- }
- None
- }
-}
+ let generic_args = generic_args.clean(cx);
+ let bindings = match generic_args {
+ GenericArgs::AngleBracketed { bindings, .. } => bindings,
+ _ => bug!("clean: parenthesized `GenericBound::LangItemTrait`"),
+ };
-impl Clean<GenericBound> for hir::GenericBound {
- fn clean(&self, cx: &DocContext) -> GenericBound {
- match *self {
- hir::GenericBound::Outlives(lt) => GenericBound::Outlives(lt.clean(cx)),
+ GenericBound::TraitBound(
+ PolyTrait { trait_: (trait_ref, &*bindings).clean(cx), generic_params: vec![] },
+ hir::TraitBoundModifier::None,
+ )
+ }
hir::GenericBound::Trait(ref t, modifier) => {
GenericBound::TraitBound(t.clean(cx), modifier)
}
}
}
-fn external_generic_args(cx: &DocContext, trait_did: Option<DefId>, has_self: bool,
- bindings: Vec<TypeBinding>, substs: &Substs) -> GenericArgs {
- let lifetimes = substs.regions().filter_map(|v| v.clean(cx)).collect();
- let types = substs.types().skip(has_self as usize).collect::<Vec<_>>();
-
- match trait_did {
- // Attempt to sugar an external path like Fn<(A, B,), C> to Fn(A, B) -> C
- Some(did) if cx.tcx.lang_items().fn_trait_kind(did).is_some() => {
- assert_eq!(types.len(), 1);
- let inputs = match types[0].sty {
- ty::Tuple(ref tys) => tys.iter().map(|t| t.clean(cx)).collect(),
- _ => {
- return GenericArgs::AngleBracketed {
- lifetimes,
- types: types.clean(cx),
- bindings,
- }
- }
- };
- let output = None;
- // FIXME(#20299) return type comes from a projection now
- // match types[1].sty {
- // ty::Tuple(ref v) if v.is_empty() => None, // -> ()
- // _ => Some(types[1].clean(cx))
- // };
- GenericArgs::Parenthesized {
- inputs,
- output,
- }
- },
- _ => {
- GenericArgs::AngleBracketed {
- lifetimes,
- types: types.clean(cx),
- bindings,
- }
- }
+impl Clean<Type> for (ty::TraitRef<'_>, &[TypeBinding]) {
+ fn clean(&self, cx: &DocContext<'_>) -> Type {
+ let (trait_ref, bounds) = *self;
+ inline::record_extern_fqn(cx, trait_ref.def_id, TypeKind::Trait);
+ let path = external_path(
+ cx,
+ cx.tcx.item_name(trait_ref.def_id),
+ Some(trait_ref.def_id),
+ true,
+ bounds.to_vec(),
+ trait_ref.substs,
+ );
+
+ debug!("ty::TraitRef\n subst: {:?}\n", trait_ref.substs);
+
+ ResolvedPath { path, param_names: None, did: trait_ref.def_id, is_generic: false }
}
}
-// trait_did should be set to a trait's DefId if called on a TraitRef, in order to sugar
-// from Fn<(A, B,), C> to Fn(A, B) -> C
-fn external_path(cx: &DocContext, name: &str, trait_did: Option<DefId>, has_self: bool,
- bindings: Vec<TypeBinding>, substs: &Substs) -> Path {
- Path {
- global: false,
- def: Def::Err,
- segments: vec![PathSegment {
- name: name.to_string(),
- args: external_generic_args(cx, trait_did, has_self, bindings, substs)
- }],
+impl<'tcx> Clean<GenericBound> for ty::TraitRef<'tcx> {
+ fn clean(&self, cx: &DocContext<'_>) -> GenericBound {
+ GenericBound::TraitBound(
+ PolyTrait { trait_: (*self, &[][..]).clean(cx), generic_params: vec![] },
+ hir::TraitBoundModifier::None,
+ )
}
}
-impl<'a, 'tcx> Clean<GenericBound> for (&'a ty::TraitRef<'tcx>, Vec<TypeBinding>) {
- fn clean(&self, cx: &DocContext) -> GenericBound {
- let (trait_ref, ref bounds) = *self;
- inline::record_extern_fqn(cx, trait_ref.def_id, TypeKind::Trait);
- let path = external_path(cx, &cx.tcx.item_name(trait_ref.def_id).as_str(),
- Some(trait_ref.def_id), true, bounds.clone(), trait_ref.substs);
-
- debug!("ty::TraitRef\n subst: {:?}\n", trait_ref.substs);
+impl Clean<GenericBound> for (ty::PolyTraitRef<'_>, &[TypeBinding]) {
+ fn clean(&self, cx: &DocContext<'_>) -> GenericBound {
+ let (poly_trait_ref, bounds) = *self;
+ let poly_trait_ref = poly_trait_ref.lift_to_tcx(cx.tcx).unwrap();
// collect any late bound regions
- let mut late_bounds = vec![];
- for ty_s in trait_ref.input_types().skip(1) {
- if let ty::Tuple(ts) = ty_s.sty {
- for &ty_s in ts {
- if let ty::Ref(ref reg, _, _) = ty_s.sty {
- if let &ty::RegionKind::ReLateBound(..) = *reg {
- debug!(" hit an ReLateBound {:?}", reg);
- if let Some(Lifetime(name)) = reg.clean(cx) {
- late_bounds.push(GenericParamDef {
- name,
- kind: GenericParamDefKind::Lifetime,
- });
- }
- }
- }
- }
- }
- }
+ let late_bound_regions: Vec<_> = cx
+ .tcx
+ .collect_referenced_late_bound_regions(&poly_trait_ref)
+ .into_iter()
+ .filter_map(|br| match br {
+ ty::BrNamed(_, name) => Some(GenericParamDef {
+ name: name.to_string(),
+ kind: GenericParamDefKind::Lifetime,
+ }),
+ _ => None,
+ })
+ .collect();
GenericBound::TraitBound(
PolyTrait {
- trait_: ResolvedPath {
- path,
- typarams: None,
- did: trait_ref.def_id,
- is_generic: false,
- },
- generic_params: late_bounds,
+ trait_: (poly_trait_ref.skip_binder(), bounds).clean(cx),
+ generic_params: late_bound_regions,
},
- hir::TraitBoundModifier::None
+ hir::TraitBoundModifier::None,
)
}
}
-impl<'tcx> Clean<GenericBound> for ty::TraitRef<'tcx> {
- fn clean(&self, cx: &DocContext) -> GenericBound {
- (self, vec![]).clean(cx)
+impl<'tcx> Clean<GenericBound> for ty::PolyTraitRef<'tcx> {
+ fn clean(&self, cx: &DocContext<'_>) -> GenericBound {
+ (*self, &[][..]).clean(cx)
}
}
-impl<'tcx> Clean<Option<Vec<GenericBound>>> for Substs<'tcx> {
- fn clean(&self, cx: &DocContext) -> Option<Vec<GenericBound>> {
+impl<'tcx> Clean<Option<Vec<GenericBound>>> for InternalSubsts<'tcx> {
+ fn clean(&self, cx: &DocContext<'_>) -> Option<Vec<GenericBound>> {
let mut v = Vec::new();
v.extend(self.regions().filter_map(|r| r.clean(cx)).map(GenericBound::Outlives));
- v.extend(self.types().map(|t| GenericBound::TraitBound(PolyTrait {
- trait_: t.clean(cx),
- generic_params: Vec::new(),
- }, hir::TraitBoundModifier::None)));
- if !v.is_empty() {Some(v)} else {None}
- }
-}
-
-#[derive(Clone, RustcEncodable, RustcDecodable, PartialEq, Eq, Debug, Hash)]
-pub struct Lifetime(String);
-
-impl Lifetime {
- pub fn get_ref<'a>(&'a self) -> &'a str {
- let Lifetime(ref s) = *self;
- let s: &'a str = s;
- s
- }
-
- pub fn statik() -> Lifetime {
- Lifetime("'static".to_string())
+ v.extend(self.types().map(|t| {
+ GenericBound::TraitBound(
+ PolyTrait { trait_: t.clean(cx), generic_params: Vec::new() },
+ hir::TraitBoundModifier::None,
+ )
+ }));
+ if !v.is_empty() { Some(v) } else { None }
}
}
impl Clean<Lifetime> for hir::Lifetime {
- fn clean(&self, cx: &DocContext) -> Lifetime {
- if self.id != ast::DUMMY_NODE_ID {
- let hir_id = cx.tcx.hir.node_to_hir_id(self.id);
- let def = cx.tcx.named_region(hir_id);
- match def {
- Some(rl::Region::EarlyBound(_, node_id, _)) |
- Some(rl::Region::LateBound(_, node_id, _)) |
- Some(rl::Region::Free(_, node_id)) => {
- if let Some(lt) = cx.lt_substs.borrow().get(&node_id).cloned() {
- return lt;
- }
+ fn clean(&self, cx: &DocContext<'_>) -> Lifetime {
+ let def = cx.tcx.named_region(self.hir_id);
+ match def {
+ Some(
+ rl::Region::EarlyBound(_, node_id, _)
+ | rl::Region::LateBound(_, node_id, _)
+ | rl::Region::Free(_, node_id),
+ ) => {
+ if let Some(lt) = cx.lt_substs.borrow().get(&node_id).cloned() {
+ return lt;
}
- _ => {}
}
+ _ => {}
}
Lifetime(self.name.ident().to_string())
}
}
-impl Clean<Lifetime> for hir::GenericParam {
- fn clean(&self, _: &DocContext) -> Lifetime {
+impl Clean<Lifetime> for hir::GenericParam<'_> {
+ fn clean(&self, _: &DocContext<'_>) -> Lifetime {
match self.kind {
hir::GenericParamKind::Lifetime { .. } => {
- if self.bounds.len() > 0 {
+ if !self.bounds.is_empty() {
let mut bounds = self.bounds.iter().map(|bound| match bound {
hir::GenericBound::Outlives(lt) => lt,
_ => panic!(),
}
}
-impl<'tcx> Clean<Lifetime> for ty::GenericParamDef {
- fn clean(&self, _cx: &DocContext) -> Lifetime {
+impl Clean<Constant> for hir::ConstArg {
+ fn clean(&self, cx: &DocContext<'_>) -> Constant {
+ Constant {
+ type_: cx
+ .tcx
+ .type_of(cx.tcx.hir().body_owner_def_id(self.value.body).to_def_id())
+ .clean(cx),
+ expr: print_const_expr(cx, self.value.body),
+ value: None,
+ is_literal: is_literal_expr(cx, self.value.body.hir_id),
+ }
+ }
+}
+
+impl Clean<Lifetime> for ty::GenericParamDef {
+ fn clean(&self, _cx: &DocContext<'_>) -> Lifetime {
Lifetime(self.name.to_string())
}
}
impl Clean<Option<Lifetime>> for ty::RegionKind {
- fn clean(&self, cx: &DocContext) -> Option<Lifetime> {
+ fn clean(&self, cx: &DocContext<'_>) -> Option<Lifetime> {
match *self {
ty::ReStatic => Some(Lifetime::statik()),
ty::ReLateBound(_, ty::BrNamed(_, name)) => Some(Lifetime(name.to_string())),
ty::ReEarlyBound(ref data) => Some(Lifetime(data.name.clean(cx))),
- ty::ReLateBound(..) |
- ty::ReFree(..) |
- ty::ReScope(..) |
- ty::ReVar(..) |
- ty::RePlaceholder(..) |
- ty::ReEmpty |
- ty::ReClosureBound(_) |
- ty::ReErased => None
+ ty::ReLateBound(..)
+ | ty::ReFree(..)
+ | ty::ReVar(..)
+ | ty::RePlaceholder(..)
+ | ty::ReEmpty(_)
+ | ty::ReErased => {
+ debug!("cannot clean region {:?}", self);
+ None
+ }
}
}
}
-#[derive(Clone, RustcEncodable, RustcDecodable, PartialEq, Eq, Debug, Hash)]
-pub enum WherePredicate {
- BoundPredicate { ty: Type, bounds: Vec<GenericBound> },
- RegionPredicate { lifetime: Lifetime, bounds: Vec<GenericBound> },
- EqPredicate { lhs: Type, rhs: Type },
-}
-
-impl Clean<WherePredicate> for hir::WherePredicate {
- fn clean(&self, cx: &DocContext) -> WherePredicate {
+impl Clean<WherePredicate> for hir::WherePredicate<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> WherePredicate {
match *self {
- hir::WherePredicate::BoundPredicate(ref wbp) => {
- WherePredicate::BoundPredicate {
- ty: wbp.bounded_ty.clean(cx),
- bounds: wbp.bounds.clean(cx)
- }
- }
+ hir::WherePredicate::BoundPredicate(ref wbp) => WherePredicate::BoundPredicate {
+ ty: wbp.bounded_ty.clean(cx),
+ bounds: wbp.bounds.clean(cx),
+ },
- hir::WherePredicate::RegionPredicate(ref wrp) => {
- WherePredicate::RegionPredicate {
- lifetime: wrp.lifetime.clean(cx),
- bounds: wrp.bounds.clean(cx)
- }
- }
+ hir::WherePredicate::RegionPredicate(ref wrp) => WherePredicate::RegionPredicate {
+ lifetime: wrp.lifetime.clean(cx),
+ bounds: wrp.bounds.clean(cx),
+ },
hir::WherePredicate::EqPredicate(ref wrp) => {
- WherePredicate::EqPredicate {
- lhs: wrp.lhs_ty.clean(cx),
- rhs: wrp.rhs_ty.clean(cx)
- }
+ WherePredicate::EqPredicate { lhs: wrp.lhs_ty.clean(cx), rhs: wrp.rhs_ty.clean(cx) }
}
}
}
}
-impl<'a> Clean<WherePredicate> for ty::Predicate<'a> {
- fn clean(&self, cx: &DocContext) -> WherePredicate {
- use rustc::ty::Predicate;
+impl<'a> Clean<Option<WherePredicate>> for ty::Predicate<'a> {
+ fn clean(&self, cx: &DocContext<'_>) -> Option<WherePredicate> {
+ match self.skip_binders() {
+ ty::PredicateAtom::Trait(pred, _) => Some(ty::Binder::bind(pred).clean(cx)),
+ ty::PredicateAtom::RegionOutlives(pred) => pred.clean(cx),
+ ty::PredicateAtom::TypeOutlives(pred) => pred.clean(cx),
+ ty::PredicateAtom::Projection(pred) => Some(pred.clean(cx)),
- match *self {
- Predicate::Trait(ref pred) => pred.clean(cx),
- Predicate::Subtype(ref pred) => pred.clean(cx),
- Predicate::RegionOutlives(ref pred) => pred.clean(cx),
- Predicate::TypeOutlives(ref pred) => pred.clean(cx),
- Predicate::Projection(ref pred) => pred.clean(cx),
-
- Predicate::WellFormed(..) |
- Predicate::ObjectSafe(..) |
- Predicate::ClosureKind(..) |
- Predicate::ConstEvaluatable(..) => panic!("not user writable"),
+ ty::PredicateAtom::Subtype(..)
+ | ty::PredicateAtom::WellFormed(..)
+ | ty::PredicateAtom::ObjectSafe(..)
+ | ty::PredicateAtom::ClosureKind(..)
+ | ty::PredicateAtom::ConstEvaluatable(..)
+ | ty::PredicateAtom::ConstEquate(..)
+ | ty::PredicateAtom::TypeWellFormedFromEnv(..) => panic!("not user writable"),
}
}
}
-impl<'a> Clean<WherePredicate> for ty::TraitPredicate<'a> {
- fn clean(&self, cx: &DocContext) -> WherePredicate {
+impl<'a> Clean<WherePredicate> for ty::PolyTraitPredicate<'a> {
+ fn clean(&self, cx: &DocContext<'_>) -> WherePredicate {
+ let poly_trait_ref = self.map_bound(|pred| pred.trait_ref);
WherePredicate::BoundPredicate {
- ty: self.trait_ref.self_ty().clean(cx),
- bounds: vec![self.trait_ref.clean(cx)]
+ ty: poly_trait_ref.skip_binder().self_ty().clean(cx),
+ bounds: vec![poly_trait_ref.clean(cx)],
}
}
}
-impl<'tcx> Clean<WherePredicate> for ty::SubtypePredicate<'tcx> {
- fn clean(&self, _cx: &DocContext) -> WherePredicate {
- panic!("subtype predicates are an internal rustc artifact \
- and should not be seen by rustdoc")
- }
-}
+impl<'tcx> Clean<Option<WherePredicate>>
+ for ty::OutlivesPredicate<ty::Region<'tcx>, ty::Region<'tcx>>
+{
+ fn clean(&self, cx: &DocContext<'_>) -> Option<WherePredicate> {
+ let ty::OutlivesPredicate(a, b) = self;
-impl<'tcx> Clean<WherePredicate> for ty::OutlivesPredicate<ty::Region<'tcx>, ty::Region<'tcx>> {
- fn clean(&self, cx: &DocContext) -> WherePredicate {
- let ty::OutlivesPredicate(ref a, ref b) = *self;
- WherePredicate::RegionPredicate {
- lifetime: a.clean(cx).expect("failed to clean lifetime"),
- bounds: vec![GenericBound::Outlives(b.clean(cx).expect("failed to clean bounds"))]
+ if let (ty::ReEmpty(_), ty::ReEmpty(_)) = (a, b) {
+ return None;
}
+
+ Some(WherePredicate::RegionPredicate {
+ lifetime: a.clean(cx).expect("failed to clean lifetime"),
+ bounds: vec![GenericBound::Outlives(b.clean(cx).expect("failed to clean bounds"))],
+ })
}
}
-impl<'tcx> Clean<WherePredicate> for ty::OutlivesPredicate<Ty<'tcx>, ty::Region<'tcx>> {
- fn clean(&self, cx: &DocContext) -> WherePredicate {
- let ty::OutlivesPredicate(ref ty, ref lt) = *self;
+impl<'tcx> Clean<Option<WherePredicate>> for ty::OutlivesPredicate<Ty<'tcx>, ty::Region<'tcx>> {
+ fn clean(&self, cx: &DocContext<'_>) -> Option<WherePredicate> {
+ let ty::OutlivesPredicate(ty, lt) = self;
- WherePredicate::BoundPredicate {
- ty: ty.clean(cx),
- bounds: vec![GenericBound::Outlives(lt.clean(cx).expect("failed to clean lifetimes"))]
+ if let ty::ReEmpty(_) = lt {
+ return None;
}
+
+ Some(WherePredicate::BoundPredicate {
+ ty: ty.clean(cx),
+ bounds: vec![GenericBound::Outlives(lt.clean(cx).expect("failed to clean lifetimes"))],
+ })
}
}
impl<'tcx> Clean<WherePredicate> for ty::ProjectionPredicate<'tcx> {
- fn clean(&self, cx: &DocContext) -> WherePredicate {
- WherePredicate::EqPredicate {
- lhs: self.projection_ty.clean(cx),
- rhs: self.ty.clean(cx)
- }
+ fn clean(&self, cx: &DocContext<'_>) -> WherePredicate {
+ let ty::ProjectionPredicate { projection_ty, ty } = self;
+ WherePredicate::EqPredicate { lhs: projection_ty.clean(cx), rhs: ty.clean(cx) }
}
}
impl<'tcx> Clean<Type> for ty::ProjectionTy<'tcx> {
- fn clean(&self, cx: &DocContext) -> Type {
- let trait_ = match self.trait_ref(cx.tcx).clean(cx) {
+ fn clean(&self, cx: &DocContext<'_>) -> Type {
+ let lifted = self.lift_to_tcx(cx.tcx).unwrap();
+ let trait_ = match lifted.trait_ref(cx.tcx).clean(cx) {
GenericBound::TraitBound(t, _) => t.trait_,
GenericBound::Outlives(_) => panic!("cleaning a trait got a lifetime"),
};
Type::QPath {
name: cx.tcx.associated_item(self.item_def_id).ident.name.clean(cx),
self_type: box self.self_ty().clean(cx),
- trait_: box trait_
- }
- }
-}
-
-#[derive(Clone, RustcEncodable, RustcDecodable, PartialEq, Eq, Debug, Hash)]
-pub enum GenericParamDefKind {
- Lifetime,
- Type {
- did: DefId,
- bounds: Vec<GenericBound>,
- default: Option<Type>,
- synthetic: Option<hir::SyntheticTyParamKind>,
- },
-}
-
-#[derive(Clone, RustcEncodable, RustcDecodable, PartialEq, Eq, Debug, Hash)]
-pub struct GenericParamDef {
- pub name: String,
-
- pub kind: GenericParamDefKind,
-}
-
-impl GenericParamDef {
- pub fn is_synthetic_type_param(&self) -> bool {
- match self.kind {
- GenericParamDefKind::Lifetime => false,
- GenericParamDefKind::Type { ref synthetic, .. } => synthetic.is_some(),
+ trait_: box trait_,
}
}
}
-impl<'tcx> Clean<GenericParamDef> for ty::GenericParamDef {
- fn clean(&self, cx: &DocContext) -> GenericParamDef {
+impl Clean<GenericParamDef> for ty::GenericParamDef {
+ fn clean(&self, cx: &DocContext<'_>) -> GenericParamDef {
let (name, kind) = match self.kind {
ty::GenericParamDefKind::Lifetime => {
(self.name.to_string(), GenericParamDefKind::Lifetime)
}
- ty::GenericParamDefKind::Type { has_default, .. } => {
- cx.renderinfo.borrow_mut().external_typarams
- .insert(self.def_id, self.name.clean(cx));
- let default = if has_default {
- Some(cx.tcx.type_of(self.def_id).clean(cx))
- } else {
- None
- };
- (self.name.clean(cx), GenericParamDefKind::Type {
- did: self.def_id,
- bounds: vec![], // These are filled in from the where-clauses.
- default,
- synthetic: None,
- })
+ ty::GenericParamDefKind::Type { has_default, synthetic, .. } => {
+ let default =
+ if has_default { Some(cx.tcx.type_of(self.def_id).clean(cx)) } else { None };
+ (
+ self.name.clean(cx),
+ GenericParamDefKind::Type {
+ did: self.def_id,
+ bounds: vec![], // These are filled in from the where-clauses.
+ default,
+ synthetic,
+ },
+ )
}
+ ty::GenericParamDefKind::Const { .. } => (
+ self.name.clean(cx),
+ GenericParamDefKind::Const {
+ did: self.def_id,
+ ty: cx.tcx.type_of(self.def_id).clean(cx),
+ },
+ ),
};
- GenericParamDef {
- name,
- kind,
- }
+ GenericParamDef { name, kind }
}
}
-impl Clean<GenericParamDef> for hir::GenericParam {
- fn clean(&self, cx: &DocContext) -> GenericParamDef {
+impl Clean<GenericParamDef> for hir::GenericParam<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> GenericParamDef {
let (name, kind) = match self.kind {
hir::GenericParamKind::Lifetime { .. } => {
- let name = if self.bounds.len() > 0 {
+ let name = if !self.bounds.is_empty() {
let mut bounds = self.bounds.iter().map(|bound| match bound {
hir::GenericBound::Outlives(lt) => lt,
_ => panic!(),
};
(name, GenericParamDefKind::Lifetime)
}
- hir::GenericParamKind::Type { ref default, synthetic, .. } => {
- (self.name.ident().name.clean(cx), GenericParamDefKind::Type {
- did: cx.tcx.hir.local_def_id(self.id),
+ hir::GenericParamKind::Type { ref default, synthetic } => (
+ self.name.ident().name.clean(cx),
+ GenericParamDefKind::Type {
+ did: cx.tcx.hir().local_def_id(self.hir_id).to_def_id(),
bounds: self.bounds.clean(cx),
default: default.clean(cx),
- synthetic: synthetic,
- })
- }
+ synthetic,
+ },
+ ),
+ hir::GenericParamKind::Const { ref ty } => (
+ self.name.ident().name.clean(cx),
+ GenericParamDefKind::Const {
+ did: cx.tcx.hir().local_def_id(self.hir_id).to_def_id(),
+ ty: ty.clean(cx),
+ },
+ ),
};
- GenericParamDef {
- name,
- kind,
- }
+ GenericParamDef { name, kind }
}
}
-// maybe use a Generic enum and use Vec<Generic>?
-#[derive(Clone, RustcEncodable, RustcDecodable, PartialEq, Eq, Debug, Default, Hash)]
-pub struct Generics {
- pub params: Vec<GenericParamDef>,
- pub where_predicates: Vec<WherePredicate>,
-}
-
-impl Clean<Generics> for hir::Generics {
- fn clean(&self, cx: &DocContext) -> Generics {
+impl Clean<Generics> for hir::Generics<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Generics {
// Synthetic type-parameters are inserted after normal ones.
// In order for normal parameters to be able to refer to synthetic ones,
// scans them first.
- fn is_impl_trait(param: &hir::GenericParam) -> bool {
+ fn is_impl_trait(param: &hir::GenericParam<'_>) -> bool {
match param.kind {
hir::GenericParamKind::Type { synthetic, .. } => {
synthetic == Some(hir::SyntheticTyParamKind::ImplTrait)
_ => false,
}
}
- let impl_trait_params = self.params
+ let impl_trait_params = self
+ .params
.iter()
.filter(|param| is_impl_trait(param))
.map(|param| {
match param.kind {
GenericParamDefKind::Lifetime => unreachable!(),
GenericParamDefKind::Type { did, ref bounds, .. } => {
- cx.impl_trait_bounds.borrow_mut().insert(did, bounds.clone());
+ cx.impl_trait_bounds.borrow_mut().insert(did.into(), bounds.clone());
}
+ GenericParamDefKind::Const { .. } => unreachable!(),
}
param
})
}
params.extend(impl_trait_params);
- let mut generics = Generics {
- params,
- where_predicates: self.where_clause.predicates.clean(cx),
- };
+ let mut generics =
+ Generics { params, where_predicates: self.where_clause.predicates.clean(cx) };
// Some duplicates are generated for ?Sized bounds between type params and where
// predicates. The point in here is to move the bounds definitions from type params
GenericParamDefKind::Type { bounds: ref mut ty_bounds, .. } => {
if ¶m.name == name {
mem::swap(bounds, ty_bounds);
- break
+ break;
}
}
+ GenericParamDefKind::Const { .. } => {}
}
}
}
}
}
-impl<'a, 'tcx> Clean<Generics> for (&'a ty::Generics,
- &'a Lrc<ty::GenericPredicates<'tcx>>) {
- fn clean(&self, cx: &DocContext) -> Generics {
+impl<'a, 'tcx> Clean<Generics> for (&'a ty::Generics, ty::GenericPredicates<'tcx>) {
+ fn clean(&self, cx: &DocContext<'_>) -> Generics {
use self::WherePredicate as WP;
+ use std::collections::BTreeMap;
let (gens, preds) = *self;
+ // Don't populate `cx.impl_trait_bounds` before `clean`ning `where` clauses,
+ // since `Clean for ty::Predicate` would consume them.
+ let mut impl_trait = BTreeMap::<ImplTraitParam, Vec<GenericBound>>::default();
+
// Bounds in the type_params and lifetimes fields are repeated in the
// predicates field (see rustc_typeck::collect::ty_generics), so remove
// them.
- let stripped_typarams = gens.params.iter().filter_map(|param| match param.kind {
- ty::GenericParamDefKind::Lifetime => None,
- ty::GenericParamDefKind::Type { .. } => {
- if param.name == keywords::SelfType.name().as_str() {
- assert_eq!(param.index, 0);
- return None;
+ let stripped_params = gens
+ .params
+ .iter()
+ .filter_map(|param| match param.kind {
+ ty::GenericParamDefKind::Lifetime => Some(param.clean(cx)),
+ ty::GenericParamDefKind::Type { synthetic, .. } => {
+ if param.name == kw::SelfUpper {
+ assert_eq!(param.index, 0);
+ return None;
+ }
+ if synthetic == Some(hir::SyntheticTyParamKind::ImplTrait) {
+ impl_trait.insert(param.index.into(), vec![]);
+ return None;
+ }
+ Some(param.clean(cx))
}
- Some(param.clean(cx))
- }
- }).collect::<Vec<GenericParamDef>>();
+ ty::GenericParamDefKind::Const { .. } => Some(param.clean(cx)),
+ })
+ .collect::<Vec<GenericParamDef>>();
- let mut where_predicates = preds.predicates.iter()
- .map(|(p, _)| p.clean(cx))
+ // param index -> [(DefId of trait, associated type name, type)]
+ let mut impl_trait_proj = FxHashMap::<u32, Vec<(DefId, String, Ty<'tcx>)>>::default();
+
+ let where_predicates = preds
+ .predicates
+ .iter()
+ .flat_map(|(p, _)| {
+ let mut projection = None;
+ let param_idx = (|| {
+ match p.skip_binders() {
+ ty::PredicateAtom::Trait(pred, _constness) => {
+ if let ty::Param(param) = pred.self_ty().kind() {
+ return Some(param.index);
+ }
+ }
+ ty::PredicateAtom::TypeOutlives(ty::OutlivesPredicate(ty, _reg)) => {
+ if let ty::Param(param) = ty.kind() {
+ return Some(param.index);
+ }
+ }
+ ty::PredicateAtom::Projection(p) => {
+ if let ty::Param(param) = p.projection_ty.self_ty().kind() {
+ projection = Some(ty::Binder::bind(p));
+ return Some(param.index);
+ }
+ }
+ _ => (),
+ }
+
+ None
+ })();
+
+ if let Some(param_idx) = param_idx {
+ if let Some(b) = impl_trait.get_mut(¶m_idx.into()) {
+ let p = p.clean(cx)?;
+
+ b.extend(
+ p.get_bounds()
+ .into_iter()
+ .flatten()
+ .cloned()
+ .filter(|b| !b.is_sized_bound(cx)),
+ );
+
+ let proj = projection
+ .map(|p| (p.skip_binder().projection_ty.clean(cx), p.skip_binder().ty));
+ if let Some(((_, trait_did, name), rhs)) =
+ proj.as_ref().and_then(|(lhs, rhs)| Some((lhs.projection()?, rhs)))
+ {
+ impl_trait_proj.entry(param_idx).or_default().push((
+ trait_did,
+ name.to_string(),
+ rhs,
+ ));
+ }
+
+ return None;
+ }
+ }
+
+ Some(p)
+ })
.collect::<Vec<_>>();
- // Type parameters and have a Sized bound by default unless removed with
+ for (param, mut bounds) in impl_trait {
+ // Move trait bounds to the front.
+ bounds.sort_by_key(|b| if let GenericBound::TraitBound(..) = b { false } else { true });
+
+ if let crate::core::ImplTraitParam::ParamIndex(idx) = param {
+ if let Some(proj) = impl_trait_proj.remove(&idx) {
+ for (trait_did, name, rhs) in proj {
+ simplify::merge_bounds(cx, &mut bounds, trait_did, &name, &rhs.clean(cx));
+ }
+ }
+ } else {
+ unreachable!();
+ }
+
+ cx.impl_trait_bounds.borrow_mut().insert(param, bounds);
+ }
+
+ // Now that `cx.impl_trait_bounds` is populated, we can process
+ // remaining predicates which could contain `impl Trait`.
+ let mut where_predicates =
+ where_predicates.into_iter().flat_map(|p| p.clean(cx)).collect::<Vec<_>>();
+
+ // Type parameters have a Sized bound by default unless removed with
// ?Sized. Scan through the predicates and mark any type parameter with
// a Sized bound, removing the bounds as we find them.
//
// don't actually know the set of associated types right here so that's
// handled in cleaning associated types
let mut sized_params = FxHashSet::default();
- where_predicates.retain(|pred| {
- match *pred {
- WP::BoundPredicate { ty: Generic(ref g), ref bounds } => {
- if bounds.iter().any(|b| b.is_sized_bound(cx)) {
- sized_params.insert(g.clone());
- false
- } else {
- true
- }
+ where_predicates.retain(|pred| match *pred {
+ WP::BoundPredicate { ty: Generic(ref g), ref bounds } => {
+ if bounds.iter().any(|b| b.is_sized_bound(cx)) {
+ sized_params.insert(g.clone());
+ false
+ } else {
+ true
}
- _ => true,
}
+ _ => true,
});
// Run through the type parameters again and insert a ?Sized
// unbound for any we didn't find to be Sized.
- for tp in &stripped_typarams {
- if !sized_params.contains(&tp.name) {
+ for tp in &stripped_params {
+ if matches!(tp.kind, types::GenericParamDefKind::Type { .. })
+ && !sized_params.contains(&tp.name)
+ {
where_predicates.push(WP::BoundPredicate {
ty: Type::Generic(tp.name.clone()),
bounds: vec![GenericBound::maybe_sized(cx)],
}
// It would be nice to collect all of the bounds on a type and recombine
- // them if possible, to avoid e.g. `where T: Foo, T: Bar, T: Sized, T: 'a`
+ // them if possible, to avoid e.g., `where T: Foo, T: Bar, T: Sized, T: 'a`
// and instead see `where T: Foo + Bar + Sized + 'a`
Generics {
- params: gens.params
- .iter()
- .flat_map(|param| match param.kind {
- ty::GenericParamDefKind::Lifetime => Some(param.clean(cx)),
- ty::GenericParamDefKind::Type { .. } => None,
- }).chain(simplify::ty_params(stripped_typarams).into_iter())
- .collect(),
+ params: stripped_params,
where_predicates: simplify::where_clauses(cx, where_predicates),
}
}
}
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug)]
-pub struct Method {
- pub generics: Generics,
- pub decl: FnDecl,
- pub header: hir::FnHeader,
-}
-
-impl<'a> Clean<Method> for (&'a hir::MethodSig, &'a hir::Generics, hir::BodyId) {
- fn clean(&self, cx: &DocContext) -> Method {
- let (generics, decl) = enter_impl_trait(cx, || {
- (self.1.clean(cx), (&*self.0.decl, self.2).clean(cx))
- });
- Method {
- decl,
- generics,
- header: self.0.header,
- }
+impl<'a> Clean<Method>
+ for (&'a hir::FnSig<'a>, &'a hir::Generics<'a>, hir::BodyId, Option<hir::Defaultness>)
+{
+ fn clean(&self, cx: &DocContext<'_>) -> Method {
+ let (generics, decl) =
+ enter_impl_trait(cx, || (self.1.clean(cx), (&*self.0.decl, self.2).clean(cx)));
+ let (all_types, ret_types) = get_all_types(&generics, &decl, cx);
+ Method { decl, generics, header: self.0.header, defaultness: self.3, all_types, ret_types }
}
}
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug)]
-pub struct TyMethod {
- pub header: hir::FnHeader,
- pub decl: FnDecl,
- pub generics: Generics,
-}
-
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug)]
-pub struct Function {
- pub decl: FnDecl,
- pub generics: Generics,
- pub header: hir::FnHeader,
-}
-
-impl Clean<Item> for doctree::Function {
- fn clean(&self, cx: &DocContext) -> Item {
- let (generics, decl) = enter_impl_trait(cx, || {
- (self.generics.clean(cx), (&self.decl, self.body).clean(cx))
- });
+impl Clean<Item> for doctree::Function<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Item {
+ let (generics, decl) =
+ enter_impl_trait(cx, || (self.generics.clean(cx), (self.decl, self.body).clean(cx)));
+ let did = cx.tcx.hir().local_def_id(self.id);
+ let constness = if is_const_fn(cx.tcx, did.to_def_id())
+ && !is_unstable_const_fn(cx.tcx, did.to_def_id()).is_some()
+ {
+ hir::Constness::Const
+ } else {
+ hir::Constness::NotConst
+ };
+ let (all_types, ret_types) = get_all_types(&generics, &decl, cx);
Item {
name: Some(self.name.clean(cx)),
attrs: self.attrs.clean(cx),
- source: self.whence.clean(cx),
+ source: self.span.clean(cx),
visibility: self.vis.clean(cx),
- stability: self.stab.clean(cx),
- deprecation: self.depr.clean(cx),
- def_id: cx.tcx.hir.local_def_id(self.id),
+ stability: cx.stability(self.id).clean(cx),
+ deprecation: cx.deprecation(self.id).clean(cx),
+ def_id: did.to_def_id(),
inner: FunctionItem(Function {
decl,
generics,
- header: self.header,
+ header: hir::FnHeader { constness, ..self.header },
+ all_types,
+ ret_types,
}),
}
}
}
-#[derive(Clone, RustcEncodable, RustcDecodable, PartialEq, Eq, Debug, Hash)]
-pub struct FnDecl {
- pub inputs: Arguments,
- pub output: FunctionRetTy,
- pub variadic: bool,
- pub attrs: Attributes,
-}
-
-impl FnDecl {
- pub fn self_type(&self) -> Option<SelfTy> {
- self.inputs.values.get(0).and_then(|v| v.to_self())
- }
-}
-
-#[derive(Clone, RustcEncodable, RustcDecodable, PartialEq, Eq, Debug, Hash)]
-pub struct Arguments {
- pub values: Vec<Argument>,
-}
-
-impl<'a> Clean<Arguments> for (&'a [hir::Ty], &'a [ast::Ident]) {
- fn clean(&self, cx: &DocContext) -> Arguments {
+impl<'a> Clean<Arguments> for (&'a [hir::Ty<'a>], &'a [Ident]) {
+ fn clean(&self, cx: &DocContext<'_>) -> Arguments {
Arguments {
- values: self.0.iter().enumerate().map(|(i, ty)| {
- let mut name = self.1.get(i).map(|ident| ident.to_string())
- .unwrap_or(String::new());
- if name.is_empty() {
- name = "_".to_string();
- }
- Argument {
- name,
- type_: ty.clean(cx),
- }
- }).collect()
+ values: self
+ .0
+ .iter()
+ .enumerate()
+ .map(|(i, ty)| {
+ let mut name =
+ self.1.get(i).map(|ident| ident.to_string()).unwrap_or(String::new());
+ if name.is_empty() {
+ name = "_".to_string();
+ }
+ Argument { name, type_: ty.clean(cx) }
+ })
+ .collect(),
}
}
}
-impl<'a> Clean<Arguments> for (&'a [hir::Ty], hir::BodyId) {
- fn clean(&self, cx: &DocContext) -> Arguments {
- let body = cx.tcx.hir.body(self.1);
+impl<'a> Clean<Arguments> for (&'a [hir::Ty<'a>], hir::BodyId) {
+ fn clean(&self, cx: &DocContext<'_>) -> Arguments {
+ let body = cx.tcx.hir().body(self.1);
Arguments {
- values: self.0.iter().enumerate().map(|(i, ty)| {
- Argument {
- name: name_from_pat(&body.arguments[i].pat),
+ values: self
+ .0
+ .iter()
+ .enumerate()
+ .map(|(i, ty)| Argument {
+ name: name_from_pat(&body.params[i].pat),
type_: ty.clean(cx),
- }
- }).collect()
+ })
+ .collect(),
}
}
}
-impl<'a, A: Copy> Clean<FnDecl> for (&'a hir::FnDecl, A)
- where (&'a [hir::Ty], A): Clean<Arguments>
+impl<'a, A: Copy> Clean<FnDecl> for (&'a hir::FnDecl<'a>, A)
+where
+ (&'a [hir::Ty<'a>], A): Clean<Arguments>,
{
- fn clean(&self, cx: &DocContext) -> FnDecl {
+ fn clean(&self, cx: &DocContext<'_>) -> FnDecl {
FnDecl {
inputs: (&self.0.inputs[..], self.1).clean(cx),
output: self.0.output.clean(cx),
- variadic: self.0.variadic,
- attrs: Attributes::default()
+ c_variadic: self.0.c_variadic,
+ attrs: Attributes::default(),
}
}
}
-impl<'a, 'tcx> Clean<FnDecl> for (DefId, ty::PolyFnSig<'tcx>) {
- fn clean(&self, cx: &DocContext) -> FnDecl {
+impl<'tcx> Clean<FnDecl> for (DefId, ty::PolyFnSig<'tcx>) {
+ fn clean(&self, cx: &DocContext<'_>) -> FnDecl {
let (did, sig) = *self;
- let mut names = if cx.tcx.hir.as_local_node_id(did).is_some() {
- vec![].into_iter()
- } else {
- cx.tcx.fn_arg_names(did).into_iter()
- };
+ let mut names = if did.is_local() { &[] } else { cx.tcx.fn_arg_names(did) }.iter();
FnDecl {
output: Return(sig.skip_binder().output().clean(cx)),
attrs: Attributes::default(),
- variadic: sig.skip_binder().variadic,
+ c_variadic: sig.skip_binder().c_variadic,
inputs: Arguments {
- values: sig.skip_binder().inputs().iter().map(|t| {
- Argument {
+ values: sig
+ .skip_binder()
+ .inputs()
+ .iter()
+ .map(|t| Argument {
type_: t.clean(cx),
name: names.next().map_or(String::new(), |name| name.to_string()),
- }
- }).collect(),
+ })
+ .collect(),
},
}
}
}
-#[derive(Clone, RustcEncodable, RustcDecodable, PartialEq, Eq, Debug, Hash)]
-pub struct Argument {
- pub type_: Type,
- pub name: String,
-}
-
-#[derive(Clone, RustcEncodable, RustcDecodable, PartialEq, Debug)]
-pub enum SelfTy {
- SelfValue,
- SelfBorrowed(Option<Lifetime>, Mutability),
- SelfExplicit(Type),
-}
-
-impl Argument {
- pub fn to_self(&self) -> Option<SelfTy> {
- if self.name != "self" {
- return None;
- }
- if self.type_.is_self_type() {
- return Some(SelfValue);
- }
- match self.type_ {
- BorrowedRef{ref lifetime, mutability, ref type_} if type_.is_self_type() => {
- Some(SelfBorrowed(lifetime.clone(), mutability))
- }
- _ => Some(SelfExplicit(self.type_.clone()))
- }
- }
-}
-
-#[derive(Clone, RustcEncodable, RustcDecodable, PartialEq, Eq, Debug, Hash)]
-pub enum FunctionRetTy {
- Return(Type),
- DefaultReturn,
-}
-
-impl Clean<FunctionRetTy> for hir::FunctionRetTy {
- fn clean(&self, cx: &DocContext) -> FunctionRetTy {
- match *self {
- hir::Return(ref typ) => Return(typ.clean(cx)),
- hir::DefaultReturn(..) => DefaultReturn,
- }
- }
-}
-
-impl GetDefId for FunctionRetTy {
- fn def_id(&self) -> Option<DefId> {
+impl Clean<FnRetTy> for hir::FnRetTy<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> FnRetTy {
match *self {
- Return(ref ty) => ty.def_id(),
- DefaultReturn => None,
+ Self::Return(ref typ) => Return(typ.clean(cx)),
+ Self::DefaultReturn(..) => DefaultReturn,
}
}
}
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug)]
-pub struct Trait {
- pub auto: bool,
- pub unsafety: hir::Unsafety,
- pub items: Vec<Item>,
- pub generics: Generics,
- pub bounds: Vec<GenericBound>,
- pub is_spotlight: bool,
- pub is_auto: bool,
-}
-
-impl Clean<Item> for doctree::Trait {
- fn clean(&self, cx: &DocContext) -> Item {
+impl Clean<Item> for doctree::Trait<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Item {
let attrs = self.attrs.clean(cx);
- let is_spotlight = attrs.has_doc_flag("spotlight");
+ let is_spotlight = attrs.has_doc_flag(sym::spotlight);
Item {
name: Some(self.name.clean(cx)),
- attrs: attrs,
- source: self.whence.clean(cx),
- def_id: cx.tcx.hir.local_def_id(self.id),
+ attrs,
+ source: self.span.clean(cx),
+ def_id: cx.tcx.hir().local_def_id(self.id).to_def_id(),
visibility: self.vis.clean(cx),
- stability: self.stab.clean(cx),
- deprecation: self.depr.clean(cx),
+ stability: cx.stability(self.id).clean(cx),
+ deprecation: cx.deprecation(self.id).clean(cx),
inner: TraitItem(Trait {
auto: self.is_auto.clean(cx),
unsafety: self.unsafety,
- items: self.items.clean(cx),
+ items: self.items.iter().map(|ti| ti.clean(cx)).collect(),
generics: self.generics.clean(cx),
bounds: self.bounds.clean(cx),
- is_spotlight: is_spotlight,
+ is_spotlight,
is_auto: self.is_auto.clean(cx),
}),
}
}
}
+impl Clean<Item> for doctree::TraitAlias<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Item {
+ let attrs = self.attrs.clean(cx);
+ Item {
+ name: Some(self.name.clean(cx)),
+ attrs,
+ source: self.span.clean(cx),
+ def_id: cx.tcx.hir().local_def_id(self.id).to_def_id(),
+ visibility: self.vis.clean(cx),
+ stability: cx.stability(self.id).clean(cx),
+ deprecation: cx.deprecation(self.id).clean(cx),
+ inner: TraitAliasItem(TraitAlias {
+ generics: self.generics.clean(cx),
+ bounds: self.bounds.clean(cx),
+ }),
+ }
+ }
+}
+
impl Clean<bool> for hir::IsAuto {
- fn clean(&self, _: &DocContext) -> bool {
+ fn clean(&self, _: &DocContext<'_>) -> bool {
match *self {
hir::IsAuto::Yes => true,
hir::IsAuto::No => false,
}
}
-impl Clean<Type> for hir::TraitRef {
- fn clean(&self, cx: &DocContext) -> Type {
- resolve_type(cx, self.path.clean(cx), self.ref_id)
+impl Clean<Type> for hir::TraitRef<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Type {
+ resolve_type(cx, self.path.clean(cx), self.hir_ref_id)
}
}
-impl Clean<PolyTrait> for hir::PolyTraitRef {
- fn clean(&self, cx: &DocContext) -> PolyTrait {
+impl Clean<PolyTrait> for hir::PolyTraitRef<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> PolyTrait {
PolyTrait {
trait_: self.trait_ref.clean(cx),
- generic_params: self.bound_generic_params.clean(cx)
+ generic_params: self.bound_generic_params.clean(cx),
}
}
}
-impl Clean<Item> for hir::TraitItem {
- fn clean(&self, cx: &DocContext) -> Item {
- let inner = match self.node {
+impl Clean<TypeKind> for hir::def::DefKind {
+ fn clean(&self, _: &DocContext<'_>) -> TypeKind {
+ match *self {
+ hir::def::DefKind::Mod => TypeKind::Module,
+ hir::def::DefKind::Struct => TypeKind::Struct,
+ hir::def::DefKind::Union => TypeKind::Union,
+ hir::def::DefKind::Enum => TypeKind::Enum,
+ hir::def::DefKind::Trait => TypeKind::Trait,
+ hir::def::DefKind::TyAlias => TypeKind::Typedef,
+ hir::def::DefKind::ForeignTy => TypeKind::Foreign,
+ hir::def::DefKind::TraitAlias => TypeKind::TraitAlias,
+ hir::def::DefKind::Fn => TypeKind::Function,
+ hir::def::DefKind::Const => TypeKind::Const,
+ hir::def::DefKind::Static => TypeKind::Static,
+ hir::def::DefKind::Macro(_) => TypeKind::Macro,
+ _ => TypeKind::Foreign,
+ }
+ }
+}
+
+impl Clean<Item> for hir::TraitItem<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Item {
+ let local_did = cx.tcx.hir().local_def_id(self.hir_id);
+ let inner = match self.kind {
hir::TraitItemKind::Const(ref ty, default) => {
- AssociatedConstItem(ty.clean(cx),
- default.map(|e| print_const_expr(cx, e)))
- }
- hir::TraitItemKind::Method(ref sig, hir::TraitMethod::Provided(body)) => {
- MethodItem((sig, &self.generics, body).clean(cx))
+ AssocConstItem(ty.clean(cx), default.map(|e| print_const_expr(cx, e)))
+ }
+ hir::TraitItemKind::Fn(ref sig, hir::TraitFn::Provided(body)) => {
+ let mut m = (sig, &self.generics, body, None).clean(cx);
+ if m.header.constness == hir::Constness::Const
+ && is_unstable_const_fn(cx.tcx, local_did.to_def_id()).is_some()
+ {
+ m.header.constness = hir::Constness::NotConst;
+ }
+ MethodItem(m)
}
- hir::TraitItemKind::Method(ref sig, hir::TraitMethod::Required(ref names)) => {
+ hir::TraitItemKind::Fn(ref sig, hir::TraitFn::Required(ref names)) => {
let (generics, decl) = enter_impl_trait(cx, || {
(self.generics.clean(cx), (&*sig.decl, &names[..]).clean(cx))
});
- TyMethodItem(TyMethod {
- header: sig.header,
- decl,
- generics,
- })
+ let (all_types, ret_types) = get_all_types(&generics, &decl, cx);
+ let mut t = TyMethod { header: sig.header, decl, generics, all_types, ret_types };
+ if t.header.constness == hir::Constness::Const
+ && is_unstable_const_fn(cx.tcx, local_did.to_def_id()).is_some()
+ {
+ t.header.constness = hir::Constness::NotConst;
+ }
+ TyMethodItem(t)
}
hir::TraitItemKind::Type(ref bounds, ref default) => {
- AssociatedTypeItem(bounds.clean(cx), default.clean(cx))
+ AssocTypeItem(bounds.clean(cx), default.clean(cx))
}
};
Item {
name: Some(self.ident.name.clean(cx)),
attrs: self.attrs.clean(cx),
source: self.span.clean(cx),
- def_id: cx.tcx.hir.local_def_id(self.id),
- visibility: None,
- stability: get_stability(cx, cx.tcx.hir.local_def_id(self.id)),
- deprecation: get_deprecation(cx, cx.tcx.hir.local_def_id(self.id)),
+ def_id: local_did.to_def_id(),
+ visibility: Visibility::Inherited,
+ stability: get_stability(cx, local_did.to_def_id()),
+ deprecation: get_deprecation(cx, local_did.to_def_id()),
inner,
}
}
}
-impl Clean<Item> for hir::ImplItem {
- fn clean(&self, cx: &DocContext) -> Item {
- let inner = match self.node {
+impl Clean<Item> for hir::ImplItem<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Item {
+ let local_did = cx.tcx.hir().local_def_id(self.hir_id);
+ let inner = match self.kind {
hir::ImplItemKind::Const(ref ty, expr) => {
- AssociatedConstItem(ty.clean(cx),
- Some(print_const_expr(cx, expr)))
+ AssocConstItem(ty.clean(cx), Some(print_const_expr(cx, expr)))
+ }
+ hir::ImplItemKind::Fn(ref sig, body) => {
+ let mut m = (sig, &self.generics, body, Some(self.defaultness)).clean(cx);
+ if m.header.constness == hir::Constness::Const
+ && is_unstable_const_fn(cx.tcx, local_did.to_def_id()).is_some()
+ {
+ m.header.constness = hir::Constness::NotConst;
+ }
+ MethodItem(m)
}
- hir::ImplItemKind::Method(ref sig, body) => {
- MethodItem((sig, &self.generics, body).clean(cx))
+ hir::ImplItemKind::TyAlias(ref ty) => {
+ let type_ = ty.clean(cx);
+ let item_type = type_.def_id().and_then(|did| inline::build_ty(cx, did));
+ TypedefItem(Typedef { type_, generics: Generics::default(), item_type }, true)
}
- hir::ImplItemKind::Type(ref ty) => TypedefItem(Typedef {
- type_: ty.clean(cx),
- generics: Generics::default(),
- }, true),
- hir::ImplItemKind::Existential(ref bounds) => ExistentialItem(Existential {
- bounds: bounds.clean(cx),
- generics: Generics::default(),
- }, true),
};
Item {
name: Some(self.ident.name.clean(cx)),
source: self.span.clean(cx),
attrs: self.attrs.clean(cx),
- def_id: cx.tcx.hir.local_def_id(self.id),
+ def_id: local_did.to_def_id(),
visibility: self.vis.clean(cx),
- stability: get_stability(cx, cx.tcx.hir.local_def_id(self.id)),
- deprecation: get_deprecation(cx, cx.tcx.hir.local_def_id(self.id)),
+ stability: get_stability(cx, local_did.to_def_id()),
+ deprecation: get_deprecation(cx, local_did.to_def_id()),
inner,
}
}
}
-impl<'tcx> Clean<Item> for ty::AssociatedItem {
- fn clean(&self, cx: &DocContext) -> Item {
+impl Clean<Item> for ty::AssocItem {
+ fn clean(&self, cx: &DocContext<'_>) -> Item {
let inner = match self.kind {
- ty::AssociatedKind::Const => {
+ ty::AssocKind::Const => {
let ty = cx.tcx.type_of(self.def_id);
let default = if self.defaultness.has_value() {
Some(inline::print_inlined_const(cx, self.def_id))
} else {
None
};
- AssociatedConstItem(ty.clean(cx), default)
+ AssocConstItem(ty.clean(cx), default)
}
- ty::AssociatedKind::Method => {
- let generics = (cx.tcx.generics_of(self.def_id),
- &cx.tcx.predicates_of(self.def_id)).clean(cx);
+ ty::AssocKind::Fn => {
+ let generics =
+ (cx.tcx.generics_of(self.def_id), cx.tcx.explicit_predicates_of(self.def_id))
+ .clean(cx);
let sig = cx.tcx.fn_sig(self.def_id);
let mut decl = (self.def_id, sig).clean(cx);
- if self.method_has_self_argument {
+ if self.fn_has_self_parameter {
let self_ty = match self.container {
- ty::ImplContainer(def_id) => {
- cx.tcx.type_of(def_id)
- }
- ty::TraitContainer(_) => cx.tcx.mk_self_type()
+ ty::ImplContainer(def_id) => cx.tcx.type_of(def_id),
+ ty::TraitContainer(_) => cx.tcx.types.self_param,
};
- let self_arg_ty = *sig.input(0).skip_binder();
+ let self_arg_ty = sig.input(0).skip_binder();
if self_arg_ty == self_ty {
decl.inputs.values[0].type_ = Generic(String::from("Self"));
- } else if let ty::Ref(_, ty, _) = self_arg_ty.sty {
+ } else if let ty::Ref(_, ty, _) = *self_arg_ty.kind() {
if ty == self_ty {
match decl.inputs.values[0].type_ {
- BorrowedRef{ref mut type_, ..} => {
+ BorrowedRef { ref mut type_, .. } => {
**type_ = Generic(String::from("Self"))
}
_ => unreachable!(),
let provided = match self.container {
ty::ImplContainer(_) => true,
- ty::TraitContainer(_) => self.defaultness.has_value()
+ ty::TraitContainer(_) => self.defaultness.has_value(),
};
+ let (all_types, ret_types) = get_all_types(&generics, &decl, cx);
if provided {
- let constness = if cx.tcx.is_const_fn(self.def_id) {
+ let constness = if is_min_const_fn(cx.tcx, self.def_id) {
hir::Constness::Const
} else {
hir::Constness::NotConst
};
+ let asyncness = cx.tcx.asyncness(self.def_id);
+ let defaultness = match self.container {
+ ty::ImplContainer(_) => Some(self.defaultness),
+ ty::TraitContainer(_) => None,
+ };
MethodItem(Method {
generics,
decl,
unsafety: sig.unsafety(),
abi: sig.abi(),
constness,
- asyncness: hir::IsAsync::NotAsync,
- }
+ asyncness,
+ },
+ defaultness,
+ all_types,
+ ret_types,
})
} else {
TyMethodItem(TyMethod {
abi: sig.abi(),
constness: hir::Constness::NotConst,
asyncness: hir::IsAsync::NotAsync,
- }
+ },
+ all_types,
+ ret_types,
})
}
}
- ty::AssociatedKind::Type => {
+ ty::AssocKind::Type => {
let my_name = self.ident.name.clean(cx);
if let ty::TraitContainer(did) = self.container {
// are actually located on the trait/impl itself, so we need to load
// all of the generics from there and then look for bounds that are
// applied to this associated type in question.
- let predicates = cx.tcx.predicates_of(did);
- let generics = (cx.tcx.generics_of(did), &predicates).clean(cx);
- let mut bounds = generics.where_predicates.iter().filter_map(|pred| {
- let (name, self_type, trait_, bounds) = match *pred {
- WherePredicate::BoundPredicate {
- ty: QPath { ref name, ref self_type, ref trait_ },
- ref bounds
- } => (name, self_type, trait_, bounds),
- _ => return None,
- };
- if *name != my_name { return None }
- match **trait_ {
- ResolvedPath { did, .. } if did == self.container.id() => {}
- _ => return None,
- }
- match **self_type {
- Generic(ref s) if *s == "Self" => {}
- _ => return None,
- }
- Some(bounds)
- }).flat_map(|i| i.iter().cloned()).collect::<Vec<_>>();
+ let predicates = cx.tcx.explicit_predicates_of(did);
+ let generics = (cx.tcx.generics_of(did), predicates).clean(cx);
+ let mut bounds = generics
+ .where_predicates
+ .iter()
+ .filter_map(|pred| {
+ let (name, self_type, trait_, bounds) = match *pred {
+ WherePredicate::BoundPredicate {
+ ty: QPath { ref name, ref self_type, ref trait_ },
+ ref bounds,
+ } => (name, self_type, trait_, bounds),
+ _ => return None,
+ };
+ if *name != my_name {
+ return None;
+ }
+ match **trait_ {
+ ResolvedPath { did, .. } if did == self.container.id() => {}
+ _ => return None,
+ }
+ match **self_type {
+ Generic(ref s) if *s == "Self" => {}
+ _ => return None,
+ }
+ Some(bounds)
+ })
+ .flat_map(|i| i.iter().cloned())
+ .collect::<Vec<_>>();
// Our Sized/?Sized bound didn't get handled when creating the generics
// because we didn't actually get our whole set of bounds until just now
// (some of them may have come from the trait). If we do have a sized
// bound, we remove it, and if we don't then we add the `?Sized` bound
// at the end.
match bounds.iter().position(|b| b.is_sized_bound(cx)) {
- Some(i) => { bounds.remove(i); }
+ Some(i) => {
+ bounds.remove(i);
+ }
None => bounds.push(GenericBound::maybe_sized(cx)),
}
None
};
- AssociatedTypeItem(bounds, ty.clean(cx))
+ AssocTypeItem(bounds, ty.clean(cx))
} else {
- TypedefItem(Typedef {
- type_: cx.tcx.type_of(self.def_id).clean(cx),
- generics: Generics {
- params: Vec::new(),
- where_predicates: Vec::new(),
+ let type_ = cx.tcx.type_of(self.def_id).clean(cx);
+ let item_type = type_.def_id().and_then(|did| inline::build_ty(cx, did));
+ TypedefItem(
+ Typedef {
+ type_,
+ generics: Generics { params: Vec::new(), where_predicates: Vec::new() },
+ item_type,
},
- }, true)
+ true,
+ )
}
}
- ty::AssociatedKind::Existential => unimplemented!(),
};
let visibility = match self.container {
ty::ImplContainer(_) => self.vis.clean(cx),
- ty::TraitContainer(_) => None,
+ ty::TraitContainer(_) => Inherited,
};
Item {
stability: get_stability(cx, self.def_id),
deprecation: get_deprecation(cx, self.def_id),
def_id: self.def_id,
- attrs: inline::load_attrs(cx, self.def_id),
+ attrs: inline::load_attrs(cx, self.def_id).clean(cx),
source: cx.tcx.def_span(self.def_id).clean(cx),
inner,
}
}
}
-/// A trait reference, which may have higher ranked lifetimes.
-#[derive(Clone, RustcEncodable, RustcDecodable, PartialEq, Eq, Debug, Hash)]
-pub struct PolyTrait {
- pub trait_: Type,
- pub generic_params: Vec<GenericParamDef>,
-}
-
-/// A representation of a Type suitable for hyperlinking purposes. Ideally one can get the original
-/// type out of the AST/TyCtxt given one of these, if more information is needed. Most importantly
-/// it does not preserve mutability or boxes.
-#[derive(Clone, RustcEncodable, RustcDecodable, PartialEq, Eq, Debug, Hash)]
-pub enum Type {
- /// structs/enums/traits (most that'd be an hir::TyKind::Path)
- ResolvedPath {
- path: Path,
- typarams: Option<Vec<GenericBound>>,
- did: DefId,
- /// true if is a `T::Name` path for associated types
- is_generic: bool,
- },
- /// For parameterized types, so the consumer of the JSON don't go
- /// looking for types which don't exist anywhere.
- Generic(String),
- /// Primitives are the fixed-size numeric types (plus int/usize/float), char,
- /// arrays, slices, and tuples.
- Primitive(PrimitiveType),
- /// extern "ABI" fn
- BareFunction(Box<BareFunctionDecl>),
- Tuple(Vec<Type>),
- Slice(Box<Type>),
- Array(Box<Type>, String),
- Never,
- Unique(Box<Type>),
- RawPointer(Mutability, Box<Type>),
- BorrowedRef {
- lifetime: Option<Lifetime>,
- mutability: Mutability,
- type_: Box<Type>,
- },
-
- // <Type as Trait>::Name
- QPath {
- name: String,
- self_type: Box<Type>,
- trait_: Box<Type>
- },
-
- // _
- Infer,
-
- // impl TraitA+TraitB
- ImplTrait(Vec<GenericBound>),
-}
-
-#[derive(Clone, RustcEncodable, RustcDecodable, PartialEq, Eq, Hash, Copy, Debug)]
-pub enum PrimitiveType {
- Isize, I8, I16, I32, I64, I128,
- Usize, U8, U16, U32, U64, U128,
- F32, F64,
- Char,
- Bool,
- Str,
- Slice,
- Array,
- Tuple,
- Unit,
- RawPointer,
- Reference,
- Fn,
- Never,
-}
-
-#[derive(Clone, RustcEncodable, RustcDecodable, Copy, Debug)]
-pub enum TypeKind {
- Enum,
- Function,
- Module,
- Const,
- Static,
- Struct,
- Union,
- Trait,
- Variant,
- Typedef,
- Foreign,
- Macro,
- Attr,
- Derive,
-}
-
-pub trait GetDefId {
- fn def_id(&self) -> Option<DefId>;
-}
-
-impl<T: GetDefId> GetDefId for Option<T> {
- fn def_id(&self) -> Option<DefId> {
- self.as_ref().and_then(|d| d.def_id())
- }
-}
-
-impl Type {
- pub fn primitive_type(&self) -> Option<PrimitiveType> {
- match *self {
- Primitive(p) | BorrowedRef { type_: box Primitive(p), ..} => Some(p),
- Slice(..) | BorrowedRef { type_: box Slice(..), .. } => Some(PrimitiveType::Slice),
- Array(..) | BorrowedRef { type_: box Array(..), .. } => Some(PrimitiveType::Array),
- Tuple(ref tys) => if tys.is_empty() {
- Some(PrimitiveType::Unit)
- } else {
- Some(PrimitiveType::Tuple)
- },
- RawPointer(..) => Some(PrimitiveType::RawPointer),
- BorrowedRef { type_: box Generic(..), .. } => Some(PrimitiveType::Reference),
- BareFunction(..) => Some(PrimitiveType::Fn),
- Never => Some(PrimitiveType::Never),
- _ => None,
- }
- }
-
- pub fn is_generic(&self) -> bool {
- match *self {
- ResolvedPath { is_generic, .. } => is_generic,
- _ => false,
- }
- }
-
- pub fn is_self_type(&self) -> bool {
- match *self {
- Generic(ref name) => name == "Self",
- _ => false
- }
- }
-
- pub fn generics(&self) -> Option<&[Type]> {
- match *self {
- ResolvedPath { ref path, .. } => {
- path.segments.last().and_then(|seg| {
- if let GenericArgs::AngleBracketed { ref types, .. } = seg.args {
- Some(&**types)
- } else {
- None
- }
- })
- }
- _ => None,
- }
- }
-}
-
-impl GetDefId for Type {
- fn def_id(&self) -> Option<DefId> {
- match *self {
- ResolvedPath { did, .. } => Some(did),
- Primitive(p) => ::html::render::cache().primitive_locations.get(&p).cloned(),
- BorrowedRef { type_: box Generic(..), .. } =>
- Primitive(PrimitiveType::Reference).def_id(),
- BorrowedRef { ref type_, .. } => type_.def_id(),
- Tuple(ref tys) => if tys.is_empty() {
- Primitive(PrimitiveType::Unit).def_id()
- } else {
- Primitive(PrimitiveType::Tuple).def_id()
- },
- BareFunction(..) => Primitive(PrimitiveType::Fn).def_id(),
- Never => Primitive(PrimitiveType::Never).def_id(),
- Slice(..) => Primitive(PrimitiveType::Slice).def_id(),
- Array(..) => Primitive(PrimitiveType::Array).def_id(),
- RawPointer(..) => Primitive(PrimitiveType::RawPointer).def_id(),
- QPath { ref self_type, .. } => self_type.def_id(),
- _ => None,
- }
- }
-}
-
-impl PrimitiveType {
- fn from_str(s: &str) -> Option<PrimitiveType> {
- match s {
- "isize" => Some(PrimitiveType::Isize),
- "i8" => Some(PrimitiveType::I8),
- "i16" => Some(PrimitiveType::I16),
- "i32" => Some(PrimitiveType::I32),
- "i64" => Some(PrimitiveType::I64),
- "i128" => Some(PrimitiveType::I128),
- "usize" => Some(PrimitiveType::Usize),
- "u8" => Some(PrimitiveType::U8),
- "u16" => Some(PrimitiveType::U16),
- "u32" => Some(PrimitiveType::U32),
- "u64" => Some(PrimitiveType::U64),
- "u128" => Some(PrimitiveType::U128),
- "bool" => Some(PrimitiveType::Bool),
- "char" => Some(PrimitiveType::Char),
- "str" => Some(PrimitiveType::Str),
- "f32" => Some(PrimitiveType::F32),
- "f64" => Some(PrimitiveType::F64),
- "array" => Some(PrimitiveType::Array),
- "slice" => Some(PrimitiveType::Slice),
- "tuple" => Some(PrimitiveType::Tuple),
- "unit" => Some(PrimitiveType::Unit),
- "pointer" => Some(PrimitiveType::RawPointer),
- "reference" => Some(PrimitiveType::Reference),
- "fn" => Some(PrimitiveType::Fn),
- "never" => Some(PrimitiveType::Never),
- _ => None,
- }
- }
-
- pub fn as_str(&self) -> &'static str {
- use self::PrimitiveType::*;
- match *self {
- Isize => "isize",
- I8 => "i8",
- I16 => "i16",
- I32 => "i32",
- I64 => "i64",
- I128 => "i128",
- Usize => "usize",
- U8 => "u8",
- U16 => "u16",
- U32 => "u32",
- U64 => "u64",
- U128 => "u128",
- F32 => "f32",
- F64 => "f64",
- Str => "str",
- Bool => "bool",
- Char => "char",
- Array => "array",
- Slice => "slice",
- Tuple => "tuple",
- Unit => "unit",
- RawPointer => "pointer",
- Reference => "reference",
- Fn => "fn",
- Never => "never",
- }
- }
-
- pub fn to_url_str(&self) -> &'static str {
- self.as_str()
- }
-}
-
-impl From<ast::IntTy> for PrimitiveType {
- fn from(int_ty: ast::IntTy) -> PrimitiveType {
- match int_ty {
- ast::IntTy::Isize => PrimitiveType::Isize,
- ast::IntTy::I8 => PrimitiveType::I8,
- ast::IntTy::I16 => PrimitiveType::I16,
- ast::IntTy::I32 => PrimitiveType::I32,
- ast::IntTy::I64 => PrimitiveType::I64,
- ast::IntTy::I128 => PrimitiveType::I128,
- }
- }
-}
-
-impl From<ast::UintTy> for PrimitiveType {
- fn from(uint_ty: ast::UintTy) -> PrimitiveType {
- match uint_ty {
- ast::UintTy::Usize => PrimitiveType::Usize,
- ast::UintTy::U8 => PrimitiveType::U8,
- ast::UintTy::U16 => PrimitiveType::U16,
- ast::UintTy::U32 => PrimitiveType::U32,
- ast::UintTy::U64 => PrimitiveType::U64,
- ast::UintTy::U128 => PrimitiveType::U128,
- }
- }
-}
-
-impl From<ast::FloatTy> for PrimitiveType {
- fn from(float_ty: ast::FloatTy) -> PrimitiveType {
- match float_ty {
- ast::FloatTy::F32 => PrimitiveType::F32,
- ast::FloatTy::F64 => PrimitiveType::F64,
- }
- }
-}
-
-impl Clean<Type> for hir::Ty {
- fn clean(&self, cx: &DocContext) -> Type {
- use rustc::hir::*;
+impl Clean<Type> for hir::Ty<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Type {
+ use rustc_hir::*;
- match self.node {
+ match self.kind {
TyKind::Never => Never,
- TyKind::Ptr(ref m) => RawPointer(m.mutbl.clean(cx), box m.ty.clean(cx)),
+ TyKind::Ptr(ref m) => RawPointer(m.mutbl, box m.ty.clean(cx)),
TyKind::Rptr(ref l, ref m) => {
- let lifetime = if l.is_elided() {
- None
- } else {
- Some(l.clean(cx))
- };
- BorrowedRef {lifetime: lifetime, mutability: m.mutbl.clean(cx),
- type_: box m.ty.clean(cx)}
+ let lifetime = if l.is_elided() { None } else { Some(l.clean(cx)) };
+ BorrowedRef { lifetime, mutability: m.mutbl, type_: box m.ty.clean(cx) }
}
TyKind::Slice(ref ty) => Slice(box ty.clean(cx)),
TyKind::Array(ref ty, ref length) => {
- let def_id = cx.tcx.hir.local_def_id(length.id);
+ let def_id = cx.tcx.hir().local_def_id(length.hir_id);
+ // NOTE(min_const_generics): We can't use `const_eval_poly` for constants
+ // as we currently do not supply the parent generics to anonymous constants
+ // but do allow `ConstKind::Param`.
+ //
+ // `const_eval_poly` tries to to first substitute generic parameters which
+ // results in an ICE while manually constructing the constant and using `eval`
+ // does nothing for `ConstKind::Param`.
+ let ct = ty::Const::from_anon_const(cx.tcx, def_id);
let param_env = cx.tcx.param_env(def_id);
- let substs = Substs::identity_for_item(cx.tcx, def_id);
- let cid = GlobalId {
- instance: ty::Instance::new(def_id, substs),
- promoted: None
- };
- let length = cx.tcx.const_eval(param_env.and(cid)).unwrap_or_else(|_| {
- ty::Const::unevaluated(cx.tcx, def_id, substs, cx.tcx.types.usize)
- });
- let length = print_const(cx, length);
+ let length = print_const(cx, ct.eval(cx.tcx, param_env));
Array(box ty.clean(cx), length)
- },
+ }
TyKind::Tup(ref tys) => Tuple(tys.clean(cx)),
- TyKind::Def(item_id, _) => {
- let item = cx.tcx.hir.expect_item(item_id.id);
- if let hir::ItemKind::Existential(ref ty) = item.node {
+ TyKind::OpaqueDef(item_id, _) => {
+ let item = cx.tcx.hir().expect_item(item_id.id);
+ if let hir::ItemKind::OpaqueTy(ref ty) = item.kind {
ImplTrait(ty.bounds.clean(cx))
} else {
unreachable!()
}
}
TyKind::Path(hir::QPath::Resolved(None, ref path)) => {
- if let Some(new_ty) = cx.ty_substs.borrow().get(&path.def).cloned() {
- return new_ty;
- }
-
- if let Def::TyParam(did) = path.def {
- if let Some(bounds) = cx.impl_trait_bounds.borrow_mut().remove(&did) {
+ if let Res::Def(DefKind::TyParam, did) = path.res {
+ if let Some(new_ty) = cx.ty_substs.borrow().get(&did).cloned() {
+ return new_ty;
+ }
+ if let Some(bounds) = cx.impl_trait_bounds.borrow_mut().remove(&did.into()) {
return ImplTrait(bounds);
}
}
let mut alias = None;
- if let Def::TyAlias(def_id) = path.def {
+ if let Res::Def(DefKind::TyAlias, def_id) = path.res {
// Substitute private type aliases
- if let Some(node_id) = cx.tcx.hir.as_local_node_id(def_id) {
- if !cx.renderinfo.borrow().access_levels.is_exported(def_id) {
- alias = Some(&cx.tcx.hir.expect_item(node_id).node);
+ if let Some(def_id) = def_id.as_local() {
+ let hir_id = cx.tcx.hir().local_def_id_to_hir_id(def_id);
+ if !cx.renderinfo.borrow().access_levels.is_exported(def_id.to_def_id()) {
+ alias = Some(&cx.tcx.hir().expect_item(hir_id).kind);
}
}
};
- if let Some(&hir::ItemKind::Ty(ref ty, ref generics)) = alias {
+ if let Some(&hir::ItemKind::TyAlias(ref ty, ref generics)) = alias {
let provided_params = &path.segments.last().expect("segments were empty");
let mut ty_substs = FxHashMap::default();
let mut lt_substs = FxHashMap::default();
- provided_params.with_generic_args(|generic_args| {
+ let mut ct_substs = FxHashMap::default();
+ let generic_args = provided_params.generic_args();
+ {
let mut indices: GenericParamCount = Default::default();
for param in generics.params.iter() {
match param.kind {
hir::GenericParamKind::Lifetime { .. } => {
let mut j = 0;
- let lifetime = generic_args.args.iter().find_map(|arg| {
- match arg {
- GenericArg::Lifetime(lt) => {
+ let lifetime =
+ generic_args.args.iter().find_map(|arg| match arg {
+ hir::GenericArg::Lifetime(lt) => {
if indices.lifetimes == j {
return Some(lt);
}
None
}
_ => None,
- }
- });
+ });
if let Some(lt) = lifetime.cloned() {
- if !lt.is_elided() {
- let lt_def_id =
- cx.tcx.hir.local_def_id(param.id);
- lt_substs.insert(lt_def_id, lt.clean(cx));
- }
+ let lt_def_id = cx.tcx.hir().local_def_id(param.hir_id);
+ let cleaned = if !lt.is_elided() {
+ lt.clean(cx)
+ } else {
+ self::types::Lifetime::elided()
+ };
+ lt_substs.insert(lt_def_id.to_def_id(), cleaned);
}
indices.lifetimes += 1;
}
hir::GenericParamKind::Type { ref default, .. } => {
- let ty_param_def =
- Def::TyParam(cx.tcx.hir.local_def_id(param.id));
+ let ty_param_def_id = cx.tcx.hir().local_def_id(param.hir_id);
let mut j = 0;
- let type_ = generic_args.args.iter().find_map(|arg| {
- match arg {
- GenericArg::Type(ty) => {
+ let type_ =
+ generic_args.args.iter().find_map(|arg| match arg {
+ hir::GenericArg::Type(ty) => {
if indices.types == j {
return Some(ty);
}
None
}
_ => None,
- }
- });
- if let Some(ty) = type_.cloned() {
- ty_substs.insert(ty_param_def, ty.clean(cx));
- } else if let Some(default) = default.clone() {
- ty_substs.insert(ty_param_def,
- default.into_inner().clean(cx));
+ });
+ if let Some(ty) = type_ {
+ ty_substs.insert(ty_param_def_id.to_def_id(), ty.clean(cx));
+ } else if let Some(default) = *default {
+ ty_substs
+ .insert(ty_param_def_id.to_def_id(), default.clean(cx));
}
indices.types += 1;
}
+ hir::GenericParamKind::Const { .. } => {
+ let const_param_def_id =
+ cx.tcx.hir().local_def_id(param.hir_id);
+ let mut j = 0;
+ let const_ =
+ generic_args.args.iter().find_map(|arg| match arg {
+ hir::GenericArg::Const(ct) => {
+ if indices.consts == j {
+ return Some(ct);
+ }
+ j += 1;
+ None
+ }
+ _ => None,
+ });
+ if let Some(ct) = const_ {
+ ct_substs
+ .insert(const_param_def_id.to_def_id(), ct.clean(cx));
+ }
+ // FIXME(const_generics:defaults)
+ indices.consts += 1;
+ }
}
}
- });
- return cx.enter_alias(ty_substs, lt_substs, || ty.clean(cx));
+ }
+ return cx.enter_alias(ty_substs, lt_substs, ct_substs, || ty.clean(cx));
}
- resolve_type(cx, path.clean(cx), self.id)
+ resolve_type(cx, path.clean(cx), self.hir_id)
}
TyKind::Path(hir::QPath::Resolved(Some(ref qself), ref p)) => {
- let mut segments: Vec<_> = p.segments.clone().into();
- segments.pop();
- let trait_path = hir::Path {
- span: p.span,
- def: Def::Trait(cx.tcx.associated_item(p.def.def_id()).container.id()),
- segments: segments.into(),
+ let segments = if p.is_global() { &p.segments[1..] } else { &p.segments };
+ let trait_segments = &segments[..segments.len() - 1];
+ let trait_path = self::Path {
+ global: p.is_global(),
+ res: Res::Def(
+ DefKind::Trait,
+ cx.tcx.associated_item(p.res.def_id()).container.id(),
+ ),
+ segments: trait_segments.clean(cx),
};
Type::QPath {
name: p.segments.last().expect("segments were empty").ident.name.clean(cx),
self_type: box qself.clean(cx),
- trait_: box resolve_type(cx, trait_path.clean(cx), self.id)
+ trait_: box resolve_type(cx, trait_path, self.hir_id),
}
}
TyKind::Path(hir::QPath::TypeRelative(ref qself, ref segment)) => {
- let mut def = Def::Err;
+ let mut res = Res::Err;
let ty = hir_ty_to_ty(cx.tcx, self);
- if let ty::Projection(proj) = ty.sty {
- def = Def::Trait(proj.trait_ref(cx.tcx).def_id);
+ if let ty::Projection(proj) = ty.kind() {
+ res = Res::Def(DefKind::Trait, proj.trait_ref(cx.tcx).def_id);
}
- let trait_path = hir::Path {
- span: self.span,
- def,
- segments: vec![].into(),
- };
+ let trait_path = hir::Path { span: self.span, res, segments: &[] };
Type::QPath {
name: segment.ident.name.clean(cx),
self_type: box qself.clean(cx),
- trait_: box resolve_type(cx, trait_path.clean(cx), self.id)
+ trait_: box resolve_type(cx, trait_path.clean(cx), self.hir_id),
}
}
+ TyKind::Path(hir::QPath::LangItem(..)) => {
+ bug!("clean: requiring documentation of lang item")
+ }
TyKind::TraitObject(ref bounds, ref lifetime) => {
match bounds[0].clean(cx).trait_ {
- ResolvedPath { path, typarams: None, did, is_generic } => {
- let mut bounds: Vec<self::GenericBound> = bounds[1..].iter().map(|bound| {
- self::GenericBound::TraitBound(bound.clean(cx),
- hir::TraitBoundModifier::None)
- }).collect();
+ ResolvedPath { path, param_names: None, did, is_generic } => {
+ let mut bounds: Vec<self::GenericBound> = bounds[1..]
+ .iter()
+ .map(|bound| {
+ self::GenericBound::TraitBound(
+ bound.clean(cx),
+ hir::TraitBoundModifier::None,
+ )
+ })
+ .collect();
if !lifetime.is_elided() {
bounds.push(self::GenericBound::Outlives(lifetime.clean(cx)));
}
- ResolvedPath { path, typarams: Some(bounds), did, is_generic, }
+ ResolvedPath { path, param_names: Some(bounds), did, is_generic }
}
- _ => Infer // shouldn't happen
+ _ => Infer, // shouldn't happen
}
}
TyKind::BareFn(ref barefn) => BareFunction(box barefn.clean(cx)),
TyKind::Infer | TyKind::Err => Infer,
- TyKind::Typeof(..) => panic!("Unimplemented type {:?}", self.node),
+ TyKind::Typeof(..) => panic!("unimplemented type {:?}", self.kind),
}
}
}
impl<'tcx> Clean<Type> for Ty<'tcx> {
- fn clean(&self, cx: &DocContext) -> Type {
- match self.sty {
+ fn clean(&self, cx: &DocContext<'_>) -> Type {
+ debug!("cleaning type: {:?}", self);
+ match *self.kind() {
ty::Never => Never,
ty::Bool => Primitive(PrimitiveType::Bool),
ty::Char => Primitive(PrimitiveType::Char),
ty::Slice(ty) => Slice(box ty.clean(cx)),
ty::Array(ty, n) => {
let mut n = cx.tcx.lift(&n).expect("array lift failed");
- if let ConstValue::Unevaluated(def_id, substs) = n.val {
- let param_env = cx.tcx.param_env(def_id);
- let cid = GlobalId {
- instance: ty::Instance::new(def_id, substs),
- promoted: None
- };
- if let Ok(new_n) = cx.tcx.const_eval(param_env.and(cid)) {
- n = new_n;
- }
- };
+ n = n.eval(cx.tcx, ty::ParamEnv::reveal_all());
let n = print_const(cx, n);
Array(box ty.clean(cx), n)
}
- ty::RawPtr(mt) => RawPointer(mt.mutbl.clean(cx), box mt.ty.clean(cx)),
- ty::Ref(r, ty, mutbl) => BorrowedRef {
- lifetime: r.clean(cx),
- mutability: mutbl.clean(cx),
- type_: box ty.clean(cx),
- },
- ty::FnDef(..) |
- ty::FnPtr(_) => {
+ ty::RawPtr(mt) => RawPointer(mt.mutbl, box mt.ty.clean(cx)),
+ ty::Ref(r, ty, mutbl) => {
+ BorrowedRef { lifetime: r.clean(cx), mutability: mutbl, type_: box ty.clean(cx) }
+ }
+ ty::FnDef(..) | ty::FnPtr(_) => {
let ty = cx.tcx.lift(self).expect("FnPtr lift failed");
let sig = ty.fn_sig(cx.tcx);
+ let def_id = DefId::local(CRATE_DEF_INDEX);
BareFunction(box BareFunctionDecl {
unsafety: sig.unsafety(),
generic_params: Vec::new(),
- decl: (cx.tcx.hir.local_def_id(ast::CRATE_NODE_ID), sig).clean(cx),
+ decl: (def_id, sig).clean(cx),
abi: sig.abi(),
})
}
AdtKind::Enum => TypeKind::Enum,
};
inline::record_extern_fqn(cx, did, kind);
- let path = external_path(cx, &cx.tcx.item_name(did).as_str(),
- None, false, vec![], substs);
- ResolvedPath {
- path,
- typarams: None,
- did,
- is_generic: false,
- }
+ let path = external_path(cx, cx.tcx.item_name(did), None, false, vec![], substs);
+ ResolvedPath { path, param_names: None, did, is_generic: false }
}
ty::Foreign(did) => {
inline::record_extern_fqn(cx, did, TypeKind::Foreign);
- let path = external_path(cx, &cx.tcx.item_name(did).as_str(),
- None, false, vec![], Substs::empty());
- ResolvedPath {
- path: path,
- typarams: None,
- did: did,
- is_generic: false,
- }
+ let path = external_path(
+ cx,
+ cx.tcx.item_name(did),
+ None,
+ false,
+ vec![],
+ InternalSubsts::empty(),
+ );
+ ResolvedPath { path, param_names: None, did, is_generic: false }
}
ty::Dynamic(ref obj, ref reg) => {
- let principal = obj.principal();
- let did = principal.def_id();
+ // HACK: pick the first `did` as the `did` of the trait object. Someone
+ // might want to implement "native" support for marker-trait-only
+ // trait objects.
+ let mut dids = obj.principal_def_id().into_iter().chain(obj.auto_traits());
+ let did = dids
+ .next()
+ .unwrap_or_else(|| panic!("found trait object `{:?}` with no traits?", self));
+ let substs = match obj.principal() {
+ Some(principal) => principal.skip_binder().substs,
+ // marker traits have no substs.
+ _ => cx.tcx.intern_substs(&[]),
+ };
+
inline::record_extern_fqn(cx, did, TypeKind::Trait);
- let mut typarams = vec![];
- reg.clean(cx).map(|b| typarams.push(GenericBound::Outlives(b)));
- for did in obj.auto_traits() {
+ let mut param_names = vec![];
+ if let Some(b) = reg.clean(cx) {
+ param_names.push(GenericBound::Outlives(b));
+ }
+ for did in dids {
let empty = cx.tcx.intern_substs(&[]);
- let path = external_path(cx, &cx.tcx.item_name(did).as_str(),
- Some(did), false, vec![], empty);
+ let path =
+ external_path(cx, cx.tcx.item_name(did), Some(did), false, vec![], empty);
inline::record_extern_fqn(cx, did, TypeKind::Trait);
- let bound = GenericBound::TraitBound(PolyTrait {
- trait_: ResolvedPath {
- path,
- typarams: None,
- did,
- is_generic: false,
+ let bound = GenericBound::TraitBound(
+ PolyTrait {
+ trait_: ResolvedPath {
+ path,
+ param_names: None,
+ did,
+ is_generic: false,
+ },
+ generic_params: Vec::new(),
},
- generic_params: Vec::new(),
- }, hir::TraitBoundModifier::None);
- typarams.push(bound);
+ hir::TraitBoundModifier::None,
+ );
+ param_names.push(bound);
}
let mut bindings = vec![];
for pb in obj.projection_bounds() {
bindings.push(TypeBinding {
name: cx.tcx.associated_item(pb.item_def_id()).ident.name.clean(cx),
- ty: pb.skip_binder().ty.clean(cx)
+ kind: TypeBindingKind::Equality { ty: pb.skip_binder().ty.clean(cx) },
});
}
- let path = external_path(cx, &cx.tcx.item_name(did).as_str(), Some(did),
- false, bindings, principal.skip_binder().substs);
- ResolvedPath {
- path,
- typarams: Some(typarams),
- did,
- is_generic: false,
- }
+ let path =
+ external_path(cx, cx.tcx.item_name(did), Some(did), false, bindings, substs);
+ ResolvedPath { path, param_names: Some(param_names), did, is_generic: false }
+ }
+ ty::Tuple(ref t) => {
+ Tuple(t.iter().map(|t| t.expect_ty()).collect::<Vec<_>>().clean(cx))
}
- ty::Tuple(ref t) => Tuple(t.clean(cx)),
ty::Projection(ref data) => data.clean(cx),
- ty::Param(ref p) => Generic(p.name.to_string()),
+ ty::Param(ref p) => {
+ if let Some(bounds) = cx.impl_trait_bounds.borrow_mut().remove(&p.index.into()) {
+ ImplTrait(bounds)
+ } else {
+ Generic(p.name.to_string())
+ }
+ }
ty::Opaque(def_id, substs) => {
// Grab the "TraitA + TraitB" from `impl TraitA + TraitB`,
// by looking up the projections associated with the def_id.
- let predicates_of = cx.tcx.predicates_of(def_id);
+ let predicates_of = cx.tcx.explicit_predicates_of(def_id);
let substs = cx.tcx.lift(&substs).expect("Opaque lift failed");
let bounds = predicates_of.instantiate(cx.tcx, substs);
let mut regions = vec![];
let mut has_sized = false;
- let mut bounds = bounds.predicates.iter().filter_map(|predicate| {
- let trait_ref = if let Some(tr) = predicate.to_opt_poly_trait_ref() {
- tr
- } else if let ty::Predicate::TypeOutlives(pred) = *predicate {
- // these should turn up at the end
- pred.skip_binder().1.clean(cx).map(|r| {
- regions.push(GenericBound::Outlives(r))
- });
- return None;
- } else {
- return None;
- };
-
- if let Some(sized) = cx.tcx.lang_items().sized_trait() {
- if trait_ref.def_id() == sized {
- has_sized = true;
- return None;
- }
- }
+ let mut bounds = bounds
+ .predicates
+ .iter()
+ .filter_map(|predicate| {
+ // Note: The substs of opaque types can contain unbound variables,
+ // meaning that we have to use `ignore_quantifiers_with_unbound_vars` here.
+ let trait_ref = match predicate.bound_atom(cx.tcx).skip_binder() {
+ ty::PredicateAtom::Trait(tr, _constness) => {
+ ty::Binder::bind(tr.trait_ref)
+ }
+ ty::PredicateAtom::TypeOutlives(ty::OutlivesPredicate(_ty, reg)) => {
+ if let Some(r) = reg.clean(cx) {
+ regions.push(GenericBound::Outlives(r));
+ }
+ return None;
+ }
+ _ => return None,
+ };
- let bounds = bounds.predicates.iter().filter_map(|pred|
- if let ty::Predicate::Projection(proj) = *pred {
- let proj = proj.skip_binder();
- if proj.projection_ty.trait_ref(cx.tcx) == *trait_ref.skip_binder() {
- Some(TypeBinding {
- name: cx.tcx.associated_item(proj.projection_ty.item_def_id)
- .ident.name.clean(cx),
- ty: proj.ty.clean(cx),
- })
- } else {
- None
+ if let Some(sized) = cx.tcx.lang_items().sized_trait() {
+ if trait_ref.def_id() == sized {
+ has_sized = true;
+ return None;
}
- } else {
- None
}
- ).collect();
- Some((trait_ref.skip_binder(), bounds).clean(cx))
- }).collect::<Vec<_>>();
+ let bounds: Vec<_> = bounds
+ .predicates
+ .iter()
+ .filter_map(|pred| {
+ if let ty::PredicateAtom::Projection(proj) =
+ pred.bound_atom(cx.tcx).skip_binder()
+ {
+ if proj.projection_ty.trait_ref(cx.tcx)
+ == trait_ref.skip_binder()
+ {
+ Some(TypeBinding {
+ name: cx
+ .tcx
+ .associated_item(proj.projection_ty.item_def_id)
+ .ident
+ .name
+ .clean(cx),
+ kind: TypeBindingKind::Equality {
+ ty: proj.ty.clean(cx),
+ },
+ })
+ } else {
+ None
+ }
+ } else {
+ None
+ }
+ })
+ .collect();
+
+ Some((trait_ref, &bounds[..]).clean(cx))
+ })
+ .collect::<Vec<_>>();
bounds.extend(regions);
if !has_sized && !bounds.is_empty() {
bounds.insert(0, GenericBound::maybe_sized(cx));
ty::Bound(..) => panic!("Bound"),
ty::Placeholder(..) => panic!("Placeholder"),
- ty::UnnormalizedProjection(..) => panic!("UnnormalizedProjection"),
ty::GeneratorWitness(..) => panic!("GeneratorWitness"),
ty::Infer(..) => panic!("Infer"),
- ty::Error => panic!("Error"),
+ ty::Error(_) => panic!("Error"),
+ }
+ }
+}
+
+impl<'tcx> Clean<Constant> for ty::Const<'tcx> {
+ fn clean(&self, cx: &DocContext<'_>) -> Constant {
+ Constant {
+ type_: self.ty.clean(cx),
+ expr: format!("{}", self),
+ value: None,
+ is_literal: false,
}
}
}
-impl Clean<Item> for hir::StructField {
- fn clean(&self, cx: &DocContext) -> Item {
+impl Clean<Item> for hir::StructField<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Item {
+ let local_did = cx.tcx.hir().local_def_id(self.hir_id);
+
Item {
name: Some(self.ident.name).clean(cx),
attrs: self.attrs.clean(cx),
source: self.span.clean(cx),
visibility: self.vis.clean(cx),
- stability: get_stability(cx, cx.tcx.hir.local_def_id(self.id)),
- deprecation: get_deprecation(cx, cx.tcx.hir.local_def_id(self.id)),
- def_id: cx.tcx.hir.local_def_id(self.id),
+ stability: get_stability(cx, local_did.to_def_id()),
+ deprecation: get_deprecation(cx, local_did.to_def_id()),
+ def_id: local_did.to_def_id(),
inner: StructFieldItem(self.ty.clean(cx)),
}
}
}
-impl<'tcx> Clean<Item> for ty::FieldDef {
- fn clean(&self, cx: &DocContext) -> Item {
+impl Clean<Item> for ty::FieldDef {
+ fn clean(&self, cx: &DocContext<'_>) -> Item {
Item {
name: Some(self.ident.name).clean(cx),
attrs: cx.tcx.get_attrs(self.did).clean(cx),
}
}
-#[derive(Clone, PartialEq, Eq, RustcDecodable, RustcEncodable, Debug)]
-pub enum Visibility {
- Public,
- Inherited,
- Crate,
- Restricted(DefId, Path),
-}
-
-impl Clean<Option<Visibility>> for hir::Visibility {
- fn clean(&self, cx: &DocContext) -> Option<Visibility> {
- Some(match self.node {
+impl Clean<Visibility> for hir::Visibility<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Visibility {
+ match self.node {
hir::VisibilityKind::Public => Visibility::Public,
hir::VisibilityKind::Inherited => Visibility::Inherited,
hir::VisibilityKind::Crate(_) => Visibility::Crate,
hir::VisibilityKind::Restricted { ref path, .. } => {
let path = path.clean(cx);
- let did = register_def(cx, path.def);
+ let did = register_res(cx, path.res);
Visibility::Restricted(did, path)
}
- })
+ }
}
}
-impl Clean<Option<Visibility>> for ty::Visibility {
- fn clean(&self, _: &DocContext) -> Option<Visibility> {
- Some(if *self == ty::Visibility::Public { Public } else { Inherited })
+impl Clean<Visibility> for ty::Visibility {
+ fn clean(&self, _: &DocContext<'_>) -> Visibility {
+ if *self == ty::Visibility::Public { Public } else { Inherited }
}
}
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug)]
-pub struct Struct {
- pub struct_type: doctree::StructType,
- pub generics: Generics,
- pub fields: Vec<Item>,
- pub fields_stripped: bool,
-}
-
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug)]
-pub struct Union {
- pub struct_type: doctree::StructType,
- pub generics: Generics,
- pub fields: Vec<Item>,
- pub fields_stripped: bool,
-}
-
-impl Clean<Item> for doctree::Struct {
- fn clean(&self, cx: &DocContext) -> Item {
+impl Clean<Item> for doctree::Struct<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Item {
Item {
name: Some(self.name.clean(cx)),
attrs: self.attrs.clean(cx),
- source: self.whence.clean(cx),
- def_id: cx.tcx.hir.local_def_id(self.id),
+ source: self.span.clean(cx),
+ def_id: cx.tcx.hir().local_def_id(self.id).to_def_id(),
visibility: self.vis.clean(cx),
- stability: self.stab.clean(cx),
- deprecation: self.depr.clean(cx),
+ stability: cx.stability(self.id).clean(cx),
+ deprecation: cx.deprecation(self.id).clean(cx),
inner: StructItem(Struct {
struct_type: self.struct_type,
generics: self.generics.clean(cx),
}
}
-impl Clean<Item> for doctree::Union {
- fn clean(&self, cx: &DocContext) -> Item {
+impl Clean<Item> for doctree::Union<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Item {
Item {
name: Some(self.name.clean(cx)),
attrs: self.attrs.clean(cx),
- source: self.whence.clean(cx),
- def_id: cx.tcx.hir.local_def_id(self.id),
+ source: self.span.clean(cx),
+ def_id: cx.tcx.hir().local_def_id(self.id).to_def_id(),
visibility: self.vis.clean(cx),
- stability: self.stab.clean(cx),
- deprecation: self.depr.clean(cx),
+ stability: cx.stability(self.id).clean(cx),
+ deprecation: cx.deprecation(self.id).clean(cx),
inner: UnionItem(Union {
struct_type: self.struct_type,
generics: self.generics.clean(cx),
}
}
-/// This is a more limited form of the standard Struct, different in that
-/// it lacks the things most items have (name, id, parameterization). Found
-/// only as a variant in an enum.
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug)]
-pub struct VariantStruct {
- pub struct_type: doctree::StructType,
- pub fields: Vec<Item>,
- pub fields_stripped: bool,
-}
-
-impl Clean<VariantStruct> for ::rustc::hir::VariantData {
- fn clean(&self, cx: &DocContext) -> VariantStruct {
+impl Clean<VariantStruct> for rustc_hir::VariantData<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> VariantStruct {
VariantStruct {
struct_type: doctree::struct_type_from_def(self),
fields: self.fields().iter().map(|x| x.clean(cx)).collect(),
}
}
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug)]
-pub struct Enum {
- pub variants: IndexVec<VariantIdx, Item>,
- pub generics: Generics,
- pub variants_stripped: bool,
-}
-
-impl Clean<Item> for doctree::Enum {
- fn clean(&self, cx: &DocContext) -> Item {
+impl Clean<Item> for doctree::Enum<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Item {
Item {
name: Some(self.name.clean(cx)),
attrs: self.attrs.clean(cx),
- source: self.whence.clean(cx),
- def_id: cx.tcx.hir.local_def_id(self.id),
+ source: self.span.clean(cx),
+ def_id: cx.tcx.hir().local_def_id(self.id).to_def_id(),
visibility: self.vis.clean(cx),
- stability: self.stab.clean(cx),
- deprecation: self.depr.clean(cx),
+ stability: cx.stability(self.id).clean(cx),
+ deprecation: cx.deprecation(self.id).clean(cx),
inner: EnumItem(Enum {
variants: self.variants.iter().map(|v| v.clean(cx)).collect(),
generics: self.generics.clean(cx),
}
}
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug)]
-pub struct Variant {
- pub kind: VariantKind,
-}
-
-impl Clean<Item> for doctree::Variant {
- fn clean(&self, cx: &DocContext) -> Item {
+impl Clean<Item> for doctree::Variant<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Item {
Item {
name: Some(self.name.clean(cx)),
attrs: self.attrs.clean(cx),
- source: self.whence.clean(cx),
- visibility: None,
- stability: self.stab.clean(cx),
- deprecation: self.depr.clean(cx),
- def_id: cx.tcx.hir.local_def_id(self.def.id()),
- inner: VariantItem(Variant {
- kind: self.def.clean(cx),
- }),
- }
- }
-}
-
-impl<'tcx> Clean<Item> for ty::VariantDef {
- fn clean(&self, cx: &DocContext) -> Item {
- let kind = match self.ctor_kind {
- CtorKind::Const => VariantKind::CLike,
- CtorKind::Fn => {
- VariantKind::Tuple(
- self.fields.iter().map(|f| cx.tcx.type_of(f.did).clean(cx)).collect()
- )
- }
- CtorKind::Fictive => {
- VariantKind::Struct(VariantStruct {
- struct_type: doctree::Plain,
- fields_stripped: false,
- fields: self.fields.iter().map(|field| {
- Item {
- source: cx.tcx.def_span(field.did).clean(cx),
- name: Some(field.ident.name.clean(cx)),
- attrs: cx.tcx.get_attrs(field.did).clean(cx),
- visibility: field.vis.clean(cx),
- def_id: field.did,
- stability: get_stability(cx, field.did),
- deprecation: get_deprecation(cx, field.did),
- inner: StructFieldItem(cx.tcx.type_of(field.did).clean(cx))
- }
- }).collect()
- })
- }
- };
- Item {
- name: Some(self.name.clean(cx)),
- attrs: inline::load_attrs(cx, self.did),
- source: cx.tcx.def_span(self.did).clean(cx),
- visibility: Some(Inherited),
- def_id: self.did,
- inner: VariantItem(Variant { kind }),
- stability: get_stability(cx, self.did),
- deprecation: get_deprecation(cx, self.did),
- }
- }
-}
-
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug)]
-pub enum VariantKind {
- CLike,
- Tuple(Vec<Type>),
- Struct(VariantStruct),
-}
-
-impl Clean<VariantKind> for hir::VariantData {
- fn clean(&self, cx: &DocContext) -> VariantKind {
- if self.is_struct() {
- VariantKind::Struct(self.clean(cx))
- } else if self.is_unit() {
- VariantKind::CLike
- } else {
- VariantKind::Tuple(self.fields().iter().map(|x| x.ty.clean(cx)).collect())
+ source: self.span.clean(cx),
+ visibility: Inherited,
+ stability: cx.stability(self.id).clean(cx),
+ deprecation: cx.deprecation(self.id).clean(cx),
+ def_id: cx.tcx.hir().local_def_id(self.id).to_def_id(),
+ inner: VariantItem(Variant { kind: self.def.clean(cx) }),
}
}
}
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug)]
-pub struct Span {
- pub filename: FileName,
- pub loline: usize,
- pub locol: usize,
- pub hiline: usize,
- pub hicol: usize,
+impl Clean<Item> for ty::VariantDef {
+ fn clean(&self, cx: &DocContext<'_>) -> Item {
+ let kind = match self.ctor_kind {
+ CtorKind::Const => VariantKind::CLike,
+ CtorKind::Fn => VariantKind::Tuple(
+ self.fields.iter().map(|f| cx.tcx.type_of(f.did).clean(cx)).collect(),
+ ),
+ CtorKind::Fictive => VariantKind::Struct(VariantStruct {
+ struct_type: doctree::Plain,
+ fields_stripped: false,
+ fields: self
+ .fields
+ .iter()
+ .map(|field| Item {
+ source: cx.tcx.def_span(field.did).clean(cx),
+ name: Some(field.ident.name.clean(cx)),
+ attrs: cx.tcx.get_attrs(field.did).clean(cx),
+ visibility: field.vis.clean(cx),
+ def_id: field.did,
+ stability: get_stability(cx, field.did),
+ deprecation: get_deprecation(cx, field.did),
+ inner: StructFieldItem(cx.tcx.type_of(field.did).clean(cx)),
+ })
+ .collect(),
+ }),
+ };
+ Item {
+ name: Some(self.ident.clean(cx)),
+ attrs: inline::load_attrs(cx, self.def_id).clean(cx),
+ source: cx.tcx.def_span(self.def_id).clean(cx),
+ visibility: Inherited,
+ def_id: self.def_id,
+ inner: VariantItem(Variant { kind }),
+ stability: get_stability(cx, self.def_id),
+ deprecation: get_deprecation(cx, self.def_id),
+ }
+ }
}
-impl Span {
- pub fn empty() -> Span {
- Span {
- filename: FileName::Anon,
- loline: 0, locol: 0,
- hiline: 0, hicol: 0,
+impl Clean<VariantKind> for hir::VariantData<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> VariantKind {
+ match self {
+ hir::VariantData::Struct(..) => VariantKind::Struct(self.clean(cx)),
+ hir::VariantData::Tuple(..) => {
+ VariantKind::Tuple(self.fields().iter().map(|x| x.ty.clean(cx)).collect())
+ }
+ hir::VariantData::Unit(..) => VariantKind::CLike,
}
}
}
-impl Clean<Span> for syntax_pos::Span {
- fn clean(&self, cx: &DocContext) -> Span {
+impl Clean<Span> for rustc_span::Span {
+ fn clean(&self, cx: &DocContext<'_>) -> Span {
if self.is_dummy() {
return Span::empty();
}
- let cm = cx.sess().source_map();
- let filename = cm.span_to_filename(*self);
- let lo = cm.lookup_char_pos(self.lo());
- let hi = cm.lookup_char_pos(self.hi());
+ let sm = cx.sess().source_map();
+ let filename = sm.span_to_filename(*self);
+ let lo = sm.lookup_char_pos(self.lo());
+ let hi = sm.lookup_char_pos(self.hi());
Span {
filename,
+ cnum: lo.file.cnum,
loline: lo.line,
locol: lo.col.to_usize(),
hiline: hi.line,
hicol: hi.col.to_usize(),
+ original: *self,
}
}
}
-#[derive(Clone, RustcEncodable, RustcDecodable, PartialEq, Eq, Debug, Hash)]
-pub struct Path {
- pub global: bool,
- pub def: Def,
- pub segments: Vec<PathSegment>,
-}
-
-impl Path {
- pub fn last_name(&self) -> &str {
- self.segments.last().expect("segments were empty").name.as_str()
- }
-}
-
-impl Clean<Path> for hir::Path {
- fn clean(&self, cx: &DocContext) -> Path {
+impl Clean<Path> for hir::Path<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Path {
Path {
global: self.is_global(),
- def: self.def,
+ res: self.res,
segments: if self.is_global() { &self.segments[1..] } else { &self.segments }.clean(cx),
}
}
}
-#[derive(Clone, RustcEncodable, RustcDecodable, PartialEq, Eq, Debug, Hash)]
-pub enum GenericArgs {
- AngleBracketed {
- lifetimes: Vec<Lifetime>,
- types: Vec<Type>,
- bindings: Vec<TypeBinding>,
- },
- Parenthesized {
- inputs: Vec<Type>,
- output: Option<Type>,
- }
-}
-
-impl Clean<GenericArgs> for hir::GenericArgs {
- fn clean(&self, cx: &DocContext) -> GenericArgs {
+impl Clean<GenericArgs> for hir::GenericArgs<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> GenericArgs {
if self.parenthesized {
- let output = self.bindings[0].ty.clean(cx);
+ let output = self.bindings[0].ty().clean(cx);
GenericArgs::Parenthesized {
inputs: self.inputs().clean(cx),
- output: if output != Type::Tuple(Vec::new()) { Some(output) } else { None }
+ output: if output != Type::Tuple(Vec::new()) { Some(output) } else { None },
}
} else {
- let (mut lifetimes, mut types) = (vec![], vec![]);
- let mut elided_lifetimes = true;
- for arg in &self.args {
- match arg {
- GenericArg::Lifetime(lt) => {
- if !lt.is_elided() {
- elided_lifetimes = false;
- }
- lifetimes.push(lt.clean(cx));
- }
- GenericArg::Type(ty) => {
- types.push(ty.clean(cx));
- }
- }
- }
GenericArgs::AngleBracketed {
- lifetimes: if elided_lifetimes { vec![] } else { lifetimes },
- types,
+ args: self
+ .args
+ .iter()
+ .map(|arg| match arg {
+ hir::GenericArg::Lifetime(lt) if !lt.is_elided() => {
+ GenericArg::Lifetime(lt.clean(cx))
+ }
+ hir::GenericArg::Lifetime(_) => GenericArg::Lifetime(Lifetime::elided()),
+ hir::GenericArg::Type(ty) => GenericArg::Type(ty.clean(cx)),
+ hir::GenericArg::Const(ct) => GenericArg::Const(ct.clean(cx)),
+ })
+ .collect(),
bindings: self.bindings.clean(cx),
}
}
}
}
-#[derive(Clone, RustcEncodable, RustcDecodable, PartialEq, Eq, Debug, Hash)]
-pub struct PathSegment {
- pub name: String,
- pub args: GenericArgs,
-}
-
-impl Clean<PathSegment> for hir::PathSegment {
- fn clean(&self, cx: &DocContext) -> PathSegment {
- PathSegment {
- name: self.ident.name.clean(cx),
- args: self.with_generic_args(|generic_args| generic_args.clean(cx))
- }
- }
-}
-
-fn strip_type(ty: Type) -> Type {
- match ty {
- Type::ResolvedPath { path, typarams, did, is_generic } => {
- Type::ResolvedPath { path: strip_path(&path), typarams, did, is_generic }
- }
- Type::Tuple(inner_tys) => {
- Type::Tuple(inner_tys.iter().map(|t| strip_type(t.clone())).collect())
- }
- Type::Slice(inner_ty) => Type::Slice(Box::new(strip_type(*inner_ty))),
- Type::Array(inner_ty, s) => Type::Array(Box::new(strip_type(*inner_ty)), s),
- Type::Unique(inner_ty) => Type::Unique(Box::new(strip_type(*inner_ty))),
- Type::RawPointer(m, inner_ty) => Type::RawPointer(m, Box::new(strip_type(*inner_ty))),
- Type::BorrowedRef { lifetime, mutability, type_ } => {
- Type::BorrowedRef { lifetime, mutability, type_: Box::new(strip_type(*type_)) }
- }
- Type::QPath { name, self_type, trait_ } => {
- Type::QPath {
- name,
- self_type: Box::new(strip_type(*self_type)), trait_: Box::new(strip_type(*trait_))
- }
- }
- _ => ty
- }
-}
-
-fn strip_path(path: &Path) -> Path {
- let segments = path.segments.iter().map(|s| {
- PathSegment {
- name: s.name.clone(),
- args: GenericArgs::AngleBracketed {
- lifetimes: Vec::new(),
- types: Vec::new(),
- bindings: Vec::new(),
- }
- }
- }).collect();
-
- Path {
- global: path.global,
- def: path.def.clone(),
- segments,
- }
-}
-
-fn qpath_to_string(p: &hir::QPath) -> String {
- let segments = match *p {
- hir::QPath::Resolved(_, ref path) => &path.segments,
- hir::QPath::TypeRelative(_, ref segment) => return segment.ident.to_string(),
- };
-
- let mut s = String::new();
- for (i, seg) in segments.iter().enumerate() {
- if i > 0 {
- s.push_str("::");
- }
- if seg.ident.name != keywords::CrateRoot.name() {
- s.push_str(&*seg.ident.as_str());
- }
+impl Clean<PathSegment> for hir::PathSegment<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> PathSegment {
+ PathSegment { name: self.ident.name.clean(cx), args: self.generic_args().clean(cx) }
}
- s
}
-impl Clean<String> for ast::Name {
- fn clean(&self, _: &DocContext) -> String {
- self.to_string()
+impl Clean<String> for Ident {
+ #[inline]
+ fn clean(&self, cx: &DocContext<'_>) -> String {
+ self.name.clean(cx)
}
}
-impl Clean<String> for InternedString {
- fn clean(&self, _: &DocContext) -> String {
+impl Clean<String> for Symbol {
+ #[inline]
+ fn clean(&self, _: &DocContext<'_>) -> String {
self.to_string()
}
}
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug)]
-pub struct Typedef {
- pub type_: Type,
- pub generics: Generics,
-}
-
-impl Clean<Item> for doctree::Typedef {
- fn clean(&self, cx: &DocContext) -> Item {
+impl Clean<Item> for doctree::Typedef<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Item {
+ let type_ = self.ty.clean(cx);
+ let item_type = type_.def_id().and_then(|did| inline::build_ty(cx, did));
Item {
name: Some(self.name.clean(cx)),
attrs: self.attrs.clean(cx),
- source: self.whence.clean(cx),
- def_id: cx.tcx.hir.local_def_id(self.id.clone()),
+ source: self.span.clean(cx),
+ def_id: cx.tcx.hir().local_def_id(self.id).to_def_id(),
visibility: self.vis.clean(cx),
- stability: self.stab.clean(cx),
- deprecation: self.depr.clean(cx),
- inner: TypedefItem(Typedef {
- type_: self.ty.clean(cx),
- generics: self.gen.clean(cx),
- }, false),
+ stability: cx.stability(self.id).clean(cx),
+ deprecation: cx.deprecation(self.id).clean(cx),
+ inner: TypedefItem(Typedef { type_, generics: self.gen.clean(cx), item_type }, false),
}
}
}
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug)]
-pub struct Existential {
- pub bounds: Vec<GenericBound>,
- pub generics: Generics,
-}
-
-impl Clean<Item> for doctree::Existential {
- fn clean(&self, cx: &DocContext) -> Item {
+impl Clean<Item> for doctree::OpaqueTy<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Item {
Item {
name: Some(self.name.clean(cx)),
attrs: self.attrs.clean(cx),
- source: self.whence.clean(cx),
- def_id: cx.tcx.hir.local_def_id(self.id.clone()),
+ source: self.span.clean(cx),
+ def_id: cx.tcx.hir().local_def_id(self.id).to_def_id(),
visibility: self.vis.clean(cx),
- stability: self.stab.clean(cx),
- deprecation: self.depr.clean(cx),
- inner: ExistentialItem(Existential {
- bounds: self.exist_ty.bounds.clean(cx),
- generics: self.exist_ty.generics.clean(cx),
- }, false),
+ stability: cx.stability(self.id).clean(cx),
+ deprecation: cx.deprecation(self.id).clean(cx),
+ inner: OpaqueTyItem(
+ OpaqueTy {
+ bounds: self.opaque_ty.bounds.clean(cx),
+ generics: self.opaque_ty.generics.clean(cx),
+ },
+ false,
+ ),
}
}
}
-#[derive(Clone, RustcEncodable, RustcDecodable, PartialEq, Eq, Debug, Hash)]
-pub struct BareFunctionDecl {
- pub unsafety: hir::Unsafety,
- pub generic_params: Vec<GenericParamDef>,
- pub decl: FnDecl,
- pub abi: Abi,
-}
-
-impl Clean<BareFunctionDecl> for hir::BareFnTy {
- fn clean(&self, cx: &DocContext) -> BareFunctionDecl {
+impl Clean<BareFunctionDecl> for hir::BareFnTy<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> BareFunctionDecl {
let (generic_params, decl) = enter_impl_trait(cx, || {
- (self.generic_params.clean(cx), (&*self.decl, &self.arg_names[..]).clean(cx))
+ (self.generic_params.clean(cx), (&*self.decl, &self.param_names[..]).clean(cx))
});
- BareFunctionDecl {
- unsafety: self.unsafety,
- abi: self.abi,
- decl,
- generic_params,
- }
+ BareFunctionDecl { unsafety: self.unsafety, abi: self.abi, decl, generic_params }
}
}
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug)]
-pub struct Static {
- pub type_: Type,
- pub mutability: Mutability,
- /// It's useful to have the value of a static documented, but I have no
- /// desire to represent expressions (that'd basically be all of the AST,
- /// which is huge!). So, have a string.
- pub expr: String,
-}
-
-impl Clean<Item> for doctree::Static {
- fn clean(&self, cx: &DocContext) -> Item {
+impl Clean<Item> for doctree::Static<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Item {
debug!("cleaning static {}: {:?}", self.name.clean(cx), self);
Item {
name: Some(self.name.clean(cx)),
attrs: self.attrs.clean(cx),
- source: self.whence.clean(cx),
- def_id: cx.tcx.hir.local_def_id(self.id),
+ source: self.span.clean(cx),
+ def_id: cx.tcx.hir().local_def_id(self.id).to_def_id(),
visibility: self.vis.clean(cx),
- stability: self.stab.clean(cx),
- deprecation: self.depr.clean(cx),
+ stability: cx.stability(self.id).clean(cx),
+ deprecation: cx.deprecation(self.id).clean(cx),
inner: StaticItem(Static {
type_: self.type_.clean(cx),
- mutability: self.mutability.clean(cx),
+ mutability: self.mutability,
expr: print_const_expr(cx, self.expr),
}),
}
}
}
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug)]
-pub struct Constant {
- pub type_: Type,
- pub expr: String,
-}
+impl Clean<Item> for doctree::Constant<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Item {
+ let def_id = cx.tcx.hir().local_def_id(self.id);
-impl Clean<Item> for doctree::Constant {
- fn clean(&self, cx: &DocContext) -> Item {
Item {
name: Some(self.name.clean(cx)),
attrs: self.attrs.clean(cx),
- source: self.whence.clean(cx),
- def_id: cx.tcx.hir.local_def_id(self.id),
+ source: self.span.clean(cx),
+ def_id: def_id.to_def_id(),
visibility: self.vis.clean(cx),
- stability: self.stab.clean(cx),
- deprecation: self.depr.clean(cx),
+ stability: cx.stability(self.id).clean(cx),
+ deprecation: cx.deprecation(self.id).clean(cx),
inner: ConstantItem(Constant {
type_: self.type_.clean(cx),
expr: print_const_expr(cx, self.expr),
+ value: print_evaluated_const(cx, def_id.to_def_id()),
+ is_literal: is_literal_expr(cx, self.expr.hir_id),
}),
}
}
}
-#[derive(Debug, Clone, RustcEncodable, RustcDecodable, PartialEq, Eq, Copy, Hash)]
-pub enum Mutability {
- Mutable,
- Immutable,
-}
-
-impl Clean<Mutability> for hir::Mutability {
- fn clean(&self, _: &DocContext) -> Mutability {
- match self {
- &hir::MutMutable => Mutable,
- &hir::MutImmutable => Immutable,
- }
- }
-}
-
-#[derive(Clone, RustcEncodable, RustcDecodable, PartialEq, Eq, Copy, Debug, Hash)]
-pub enum ImplPolarity {
- Positive,
- Negative,
-}
-
-impl Clean<ImplPolarity> for hir::ImplPolarity {
- fn clean(&self, _: &DocContext) -> ImplPolarity {
+impl Clean<ImplPolarity> for ty::ImplPolarity {
+ fn clean(&self, _: &DocContext<'_>) -> ImplPolarity {
match self {
- &hir::ImplPolarity::Positive => ImplPolarity::Positive,
- &hir::ImplPolarity::Negative => ImplPolarity::Negative,
+ &ty::ImplPolarity::Positive |
+ // FIXME: do we want to do something else here?
+ &ty::ImplPolarity::Reservation => ImplPolarity::Positive,
+ &ty::ImplPolarity::Negative => ImplPolarity::Negative,
}
}
}
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug)]
-pub struct Impl {
- pub unsafety: hir::Unsafety,
- pub generics: Generics,
- pub provided_trait_methods: FxHashSet<String>,
- pub trait_: Option<Type>,
- pub for_: Type,
- pub items: Vec<Item>,
- pub polarity: Option<ImplPolarity>,
- pub synthetic: bool,
- pub blanket_impl: Option<Type>,
-}
-
-pub fn get_auto_traits_with_node_id(cx: &DocContext, id: ast::NodeId, name: String) -> Vec<Item> {
- let finder = AutoTraitFinder::new(cx);
- finder.get_with_node_id(id, name)
-}
-
-pub fn get_auto_traits_with_def_id(cx: &DocContext, id: DefId) -> Vec<Item> {
- let finder = AutoTraitFinder::new(cx);
-
- finder.get_with_def_id(id)
-}
-
-pub fn get_blanket_impls_with_node_id(cx: &DocContext, id: ast::NodeId, name: String) -> Vec<Item> {
- let finder = BlanketImplFinder::new(cx);
- finder.get_with_node_id(id, name)
-}
-
-pub fn get_blanket_impls_with_def_id(cx: &DocContext, id: DefId) -> Vec<Item> {
- let finder = BlanketImplFinder::new(cx);
-
- finder.get_with_def_id(id)
-}
-
-impl Clean<Vec<Item>> for doctree::Impl {
- fn clean(&self, cx: &DocContext) -> Vec<Item> {
+impl Clean<Vec<Item>> for doctree::Impl<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Vec<Item> {
let mut ret = Vec::new();
let trait_ = self.trait_.clean(cx);
- let items = self.items.clean(cx);
+ let items = self.items.iter().map(|ii| ii.clean(cx)).collect::<Vec<_>>();
+ let def_id = cx.tcx.hir().local_def_id(self.id);
// If this impl block is an implementation of the Deref trait, then we
// need to try inlining the target's inherent impl blocks as well.
build_deref_target_impls(cx, &items, &mut ret);
}
- let provided = trait_.def_id().map(|did| {
- cx.tcx.provided_trait_methods(did)
- .into_iter()
- .map(|meth| meth.ident.to_string())
- .collect()
- }).unwrap_or_default();
+ let provided: FxHashSet<String> = trait_
+ .def_id()
+ .map(|did| {
+ cx.tcx.provided_trait_methods(did).map(|meth| meth.ident.to_string()).collect()
+ })
+ .unwrap_or_default();
- ret.push(Item {
+ let for_ = self.for_.clean(cx);
+ let type_alias = for_.def_id().and_then(|did| match cx.tcx.def_kind(did) {
+ DefKind::TyAlias => Some(cx.tcx.type_of(did).clean(cx)),
+ _ => None,
+ });
+ let make_item = |trait_: Option<Type>, for_: Type, items: Vec<Item>| Item {
name: None,
attrs: self.attrs.clean(cx),
- source: self.whence.clean(cx),
- def_id: cx.tcx.hir.local_def_id(self.id),
+ source: self.span.clean(cx),
+ def_id: def_id.to_def_id(),
visibility: self.vis.clean(cx),
- stability: self.stab.clean(cx),
- deprecation: self.depr.clean(cx),
+ stability: cx.stability(self.id).clean(cx),
+ deprecation: cx.deprecation(self.id).clean(cx),
inner: ImplItem(Impl {
unsafety: self.unsafety,
generics: self.generics.clean(cx),
- provided_trait_methods: provided,
+ provided_trait_methods: provided.clone(),
trait_,
- for_: self.for_.clean(cx),
+ for_,
items,
- polarity: Some(self.polarity.clean(cx)),
+ polarity: Some(cx.tcx.impl_polarity(def_id).clean(cx)),
synthetic: false,
blanket_impl: None,
- })
- });
+ }),
+ };
+ if let Some(type_alias) = type_alias {
+ ret.push(make_item(trait_.clone(), type_alias, items.clone()));
+ }
+ ret.push(make_item(trait_, for_, items));
ret
}
}
-fn build_deref_target_impls(cx: &DocContext,
- items: &[Item],
- ret: &mut Vec<Item>) {
- use self::PrimitiveType::*;
- let tcx = cx.tcx;
+impl Clean<Vec<Item>> for doctree::ExternCrate<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Vec<Item> {
+ let please_inline = self.vis.node.is_pub()
+ && self.attrs.iter().any(|a| {
+ a.has_name(sym::doc)
+ && match a.meta_item_list() {
+ Some(l) => attr::list_contains_name(&l, sym::inline),
+ None => false,
+ }
+ });
- for item in items {
- let target = match item.inner {
- TypedefItem(ref t, true) => &t.type_,
- _ => continue,
- };
- let primitive = match *target {
- ResolvedPath { did, .. } if did.is_local() => continue,
- ResolvedPath { did, .. } => {
- ret.extend(inline::build_impls(cx, did));
- continue
- }
- _ => match target.primitive_type() {
- Some(prim) => prim,
- None => continue,
- }
- };
- let did = match primitive {
- Isize => tcx.lang_items().isize_impl(),
- I8 => tcx.lang_items().i8_impl(),
- I16 => tcx.lang_items().i16_impl(),
- I32 => tcx.lang_items().i32_impl(),
- I64 => tcx.lang_items().i64_impl(),
- I128 => tcx.lang_items().i128_impl(),
- Usize => tcx.lang_items().usize_impl(),
- U8 => tcx.lang_items().u8_impl(),
- U16 => tcx.lang_items().u16_impl(),
- U32 => tcx.lang_items().u32_impl(),
- U64 => tcx.lang_items().u64_impl(),
- U128 => tcx.lang_items().u128_impl(),
- F32 => tcx.lang_items().f32_impl(),
- F64 => tcx.lang_items().f64_impl(),
- Char => tcx.lang_items().char_impl(),
- Bool => None,
- Str => tcx.lang_items().str_impl(),
- Slice => tcx.lang_items().slice_impl(),
- Array => tcx.lang_items().slice_impl(),
- Tuple => None,
- Unit => None,
- RawPointer => tcx.lang_items().const_ptr_impl(),
- Reference => None,
- Fn => None,
- Never => None,
- };
- if let Some(did) = did {
- if !did.is_local() {
- inline::build_impl(cx, did, ret);
+ if please_inline {
+ let mut visited = FxHashSet::default();
+
+ let res = Res::Def(DefKind::Mod, DefId { krate: self.cnum, index: CRATE_DEF_INDEX });
+
+ if let Some(items) =
+ inline::try_inline(cx, res, self.name, Some(self.attrs), &mut visited)
+ {
+ return items;
}
}
- }
-}
-impl Clean<Item> for doctree::ExternCrate {
- fn clean(&self, cx: &DocContext) -> Item {
- Item {
+ vec![Item {
name: None,
attrs: self.attrs.clean(cx),
- source: self.whence.clean(cx),
+ source: self.span.clean(cx),
def_id: DefId { krate: self.cnum, index: CRATE_DEF_INDEX },
visibility: self.vis.clean(cx),
stability: None,
deprecation: None,
- inner: ExternCrateItem(self.name.clean(cx), self.path.clone())
- }
+ inner: ExternCrateItem(self.name.clean(cx), self.path.clone()),
+ }]
}
}
-impl Clean<Vec<Item>> for doctree::Import {
- fn clean(&self, cx: &DocContext) -> Vec<Item> {
+impl Clean<Vec<Item>> for doctree::Import<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Vec<Item> {
// We consider inlining the documentation of `pub use` statements, but we
// forcefully don't inline if this is not public or if the
// #[doc(no_inline)] attribute is present.
// Don't inline doc(hidden) imports so they can be stripped at a later stage.
- let mut denied = !self.vis.node.is_pub() || self.attrs.iter().any(|a| {
- a.name() == "doc" && match a.meta_item_list() {
- Some(l) => attr::list_contains_name(&l, "no_inline") ||
- attr::list_contains_name(&l, "hidden"),
- None => false,
- }
- });
+ let mut denied = !self.vis.node.is_pub()
+ || self.attrs.iter().any(|a| {
+ a.has_name(sym::doc)
+ && match a.meta_item_list() {
+ Some(l) => {
+ attr::list_contains_name(&l, sym::no_inline)
+ || attr::list_contains_name(&l, sym::hidden)
+ }
+ None => false,
+ }
+ });
// Also check whether imports were asked to be inlined, in case we're trying to re-export a
// crate in Rust 2018+
- let please_inline = self.attrs.lists("doc").has_word("inline");
+ let please_inline = self.attrs.lists(sym::doc).has_word(sym::inline);
let path = self.path.clean(cx);
let inner = if self.glob {
if !denied {
let mut visited = FxHashSet::default();
- if let Some(items) = inline::try_inline_glob(cx, path.def, &mut visited) {
+ if let Some(items) = inline::try_inline_glob(cx, path.res, &mut visited) {
return items;
}
}
} else {
let name = self.name;
if !please_inline {
- match path.def {
- Def::Mod(did) => if !did.is_local() && did.index == CRATE_DEF_INDEX {
+ if let Res::Def(DefKind::Mod, did) = path.res {
+ if !did.is_local() && did.index == CRATE_DEF_INDEX {
// if we're `pub use`ing an extern crate root, don't inline it unless we
// were specifically asked for it
denied = true;
}
- _ => {}
}
}
if !denied {
let mut visited = FxHashSet::default();
- if let Some(items) = inline::try_inline(cx, path.def, name, &mut visited) {
+ if let Some(items) =
+ inline::try_inline(cx, path.res, name, Some(self.attrs), &mut visited)
+ {
return items;
}
}
vec![Item {
name: None,
attrs: self.attrs.clean(cx),
- source: self.whence.clean(cx),
- def_id: cx.tcx.hir.local_def_id(ast::CRATE_NODE_ID),
+ source: self.span.clean(cx),
+ def_id: DefId::local(CRATE_DEF_INDEX),
visibility: self.vis.clean(cx),
stability: None,
deprecation: None,
- inner: ImportItem(inner)
+ inner: ImportItem(inner),
}]
}
}
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug)]
-pub enum Import {
- // use source as str;
- Simple(String, ImportSource),
- // use source::*;
- Glob(ImportSource)
-}
-
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug)]
-pub struct ImportSource {
- pub path: Path,
- pub did: Option<DefId>,
-}
-
-impl Clean<Vec<Item>> for hir::ForeignMod {
- fn clean(&self, cx: &DocContext) -> Vec<Item> {
- let mut items = self.items.clean(cx);
- for item in &mut items {
- if let ForeignFunctionItem(ref mut f) = item.inner {
- f.header.abi = self.abi;
- }
- }
- items
- }
-}
-
-impl Clean<Item> for hir::ForeignItem {
- fn clean(&self, cx: &DocContext) -> Item {
- let inner = match self.node {
+impl Clean<Item> for doctree::ForeignItem<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Item {
+ let inner = match self.kind {
hir::ForeignItemKind::Fn(ref decl, ref names, ref generics) => {
- let (generics, decl) = enter_impl_trait(cx, || {
- (generics.clean(cx), (&**decl, &names[..]).clean(cx))
- });
+ let abi = cx.tcx.hir().get_foreign_abi(self.id);
+ let (generics, decl) =
+ enter_impl_trait(cx, || (generics.clean(cx), (&**decl, &names[..]).clean(cx)));
+ let (all_types, ret_types) = get_all_types(&generics, &decl, cx);
ForeignFunctionItem(Function {
decl,
generics,
header: hir::FnHeader {
unsafety: hir::Unsafety::Unsafe,
- abi: Abi::Rust,
+ abi,
constness: hir::Constness::NotConst,
asyncness: hir::IsAsync::NotAsync,
},
+ all_types,
+ ret_types,
})
}
- hir::ForeignItemKind::Static(ref ty, mutbl) => {
- ForeignStaticItem(Static {
- type_: ty.clean(cx),
- mutability: if mutbl {Mutable} else {Immutable},
- expr: String::new(),
- })
- }
- hir::ForeignItemKind::Type => {
- ForeignTypeItem
- }
+ hir::ForeignItemKind::Static(ref ty, mutbl) => ForeignStaticItem(Static {
+ type_: ty.clean(cx),
+ mutability: *mutbl,
+ expr: String::new(),
+ }),
+ hir::ForeignItemKind::Type => ForeignTypeItem,
};
Item {
name: Some(self.name.clean(cx)),
attrs: self.attrs.clean(cx),
source: self.span.clean(cx),
- def_id: cx.tcx.hir.local_def_id(self.id),
+ def_id: cx.tcx.hir().local_def_id(self.id).to_def_id(),
visibility: self.vis.clean(cx),
- stability: get_stability(cx, cx.tcx.hir.local_def_id(self.id)),
- deprecation: get_deprecation(cx, cx.tcx.hir.local_def_id(self.id)),
+ stability: cx.stability(self.id).clean(cx),
+ deprecation: cx.deprecation(self.id).clean(cx),
inner,
}
}
}
-// Utilities
-
-pub trait ToSource {
- fn to_src(&self, cx: &DocContext) -> String;
-}
-
-impl ToSource for syntax_pos::Span {
- fn to_src(&self, cx: &DocContext) -> String {
- debug!("converting span {:?} to snippet", self.clean(cx));
- let sn = match cx.sess().source_map().span_to_snippet(*self) {
- Ok(x) => x,
- Err(_) => String::new()
- };
- debug!("got snippet {}", sn);
- sn
- }
-}
-
-fn name_from_pat(p: &hir::Pat) -> String {
- use rustc::hir::*;
- debug!("Trying to get a name from pattern: {:?}", p);
-
- match p.node {
- PatKind::Wild => "_".to_string(),
- PatKind::Binding(_, _, ident, _) => ident.to_string(),
- PatKind::TupleStruct(ref p, ..) | PatKind::Path(ref p) => qpath_to_string(p),
- PatKind::Struct(ref name, ref fields, etc) => {
- format!("{} {{ {}{} }}", qpath_to_string(name),
- fields.iter().map(|&Spanned { node: ref fp, .. }|
- format!("{}: {}", fp.ident, name_from_pat(&*fp.pat)))
- .collect::<Vec<String>>().join(", "),
- if etc { ", .." } else { "" }
- )
- }
- PatKind::Tuple(ref elts, _) => format!("({})", elts.iter().map(|p| name_from_pat(&**p))
- .collect::<Vec<String>>().join(", ")),
- PatKind::Box(ref p) => name_from_pat(&**p),
- PatKind::Ref(ref p, _) => name_from_pat(&**p),
- PatKind::Lit(..) => {
- warn!("tried to get argument name from PatKind::Lit, \
- which is silly in function arguments");
- "()".to_string()
- },
- PatKind::Range(..) => panic!("tried to get argument name from PatKind::Range, \
- which is not allowed in function arguments"),
- PatKind::Slice(ref begin, ref mid, ref end) => {
- let begin = begin.iter().map(|p| name_from_pat(&**p));
- let mid = mid.as_ref().map(|p| format!("..{}", name_from_pat(&**p))).into_iter();
- let end = end.iter().map(|p| name_from_pat(&**p));
- format!("[{}]", begin.chain(mid).chain(end).collect::<Vec<_>>().join(", "))
- },
- }
-}
-
-fn print_const(cx: &DocContext, n: &ty::Const) -> String {
- match n.val {
- ConstValue::Unevaluated(def_id, _) => {
- if let Some(node_id) = cx.tcx.hir.as_local_node_id(def_id) {
- print_const_expr(cx, cx.tcx.hir.body_owned_by(node_id))
- } else {
- inline::print_inlined_const(cx, def_id)
- }
- },
- _ => {
- let mut s = String::new();
- ::rustc::mir::fmt_const_val(&mut s, n).expect("fmt_const_val failed");
- // array lengths are obviously usize
- if s.ends_with("usize") {
- let n = s.len() - "usize".len();
- s.truncate(n);
- }
- s
- },
- }
-}
-
-fn print_const_expr(cx: &DocContext, body: hir::BodyId) -> String {
- cx.tcx.hir.node_to_pretty_string(body.node_id)
-}
-
-/// Given a type Path, resolve it to a Type using the TyCtxt
-fn resolve_type(cx: &DocContext,
- path: Path,
- id: ast::NodeId) -> Type {
- if id == ast::DUMMY_NODE_ID {
- debug!("resolve_type({:?})", path);
- } else {
- debug!("resolve_type({:?},{:?})", path, id);
- }
-
- let is_generic = match path.def {
- Def::PrimTy(p) => match p {
- hir::Str => return Primitive(PrimitiveType::Str),
- hir::Bool => return Primitive(PrimitiveType::Bool),
- hir::Char => return Primitive(PrimitiveType::Char),
- hir::Int(int_ty) => return Primitive(int_ty.into()),
- hir::Uint(uint_ty) => return Primitive(uint_ty.into()),
- hir::Float(float_ty) => return Primitive(float_ty.into()),
- },
- Def::SelfTy(..) if path.segments.len() == 1 => {
- return Generic(keywords::SelfType.name().to_string());
- }
- Def::TyParam(..) if path.segments.len() == 1 => {
- return Generic(format!("{:#}", path));
- }
- Def::SelfTy(..) | Def::TyParam(..) | Def::AssociatedTy(..) => true,
- _ => false,
- };
- let did = register_def(&*cx, path.def);
- ResolvedPath { path: path, typarams: None, did: did, is_generic: is_generic }
-}
-
-pub fn register_def(cx: &DocContext, def: Def) -> DefId {
- debug!("register_def({:?})", def);
-
- let (did, kind) = match def {
- Def::Fn(i) => (i, TypeKind::Function),
- Def::TyAlias(i) => (i, TypeKind::Typedef),
- Def::Enum(i) => (i, TypeKind::Enum),
- Def::Trait(i) => (i, TypeKind::Trait),
- Def::Struct(i) => (i, TypeKind::Struct),
- Def::Union(i) => (i, TypeKind::Union),
- Def::Mod(i) => (i, TypeKind::Module),
- Def::ForeignTy(i) => (i, TypeKind::Foreign),
- Def::Const(i) => (i, TypeKind::Const),
- Def::Static(i, _) => (i, TypeKind::Static),
- Def::Variant(i) => (cx.tcx.parent_def_id(i).expect("cannot get parent def id"),
- TypeKind::Enum),
- Def::Macro(i, mac_kind) => match mac_kind {
- MacroKind::Bang => (i, TypeKind::Macro),
- MacroKind::Attr => (i, TypeKind::Attr),
- MacroKind::Derive => (i, TypeKind::Derive),
- MacroKind::ProcMacroStub => unreachable!(),
- },
- Def::SelfTy(Some(def_id), _) => (def_id, TypeKind::Trait),
- Def::SelfTy(_, Some(impl_def_id)) => {
- return impl_def_id
- }
- _ => return def.def_id()
- };
- if did.is_local() { return did }
- inline::record_extern_fqn(cx, did, kind);
- if let TypeKind::Trait = kind {
- inline::record_extern_trait(cx, did);
- }
- did
-}
-
-fn resolve_use_source(cx: &DocContext, path: Path) -> ImportSource {
- ImportSource {
- did: if path.def == Def::Err {
- None
- } else {
- Some(register_def(cx, path.def))
- },
- path,
- }
-}
-
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug)]
-pub struct Macro {
- pub source: String,
- pub imported_from: Option<String>,
-}
-
-impl Clean<Item> for doctree::Macro {
- fn clean(&self, cx: &DocContext) -> Item {
+impl Clean<Item> for doctree::Macro<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Item {
let name = self.name.clean(cx);
Item {
name: Some(name.clone()),
attrs: self.attrs.clean(cx),
- source: self.whence.clean(cx),
- visibility: Some(Public),
- stability: self.stab.clean(cx),
- deprecation: self.depr.clean(cx),
+ source: self.span.clean(cx),
+ visibility: Public,
+ stability: cx.stability(self.hid).clean(cx),
+ deprecation: cx.deprecation(self.hid).clean(cx),
def_id: self.def_id,
inner: MacroItem(Macro {
- source: format!("macro_rules! {} {{\n{}}}",
- name,
- self.matchers.iter().map(|span| {
- format!(" {} => {{ ... }};\n", span.to_src(cx))
- }).collect::<String>()),
+ source: format!(
+ "macro_rules! {} {{\n{}}}",
+ name,
+ self.matchers
+ .iter()
+ .map(|span| { format!(" {} => {{ ... }};\n", span.to_src(cx)) })
+ .collect::<String>()
+ ),
imported_from: self.imported_from.clean(cx),
}),
}
}
}
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug)]
-pub struct ProcMacro {
- pub kind: MacroKind,
- pub helpers: Vec<String>,
-}
-
-impl Clean<Item> for doctree::ProcMacro {
- fn clean(&self, cx: &DocContext) -> Item {
+impl Clean<Item> for doctree::ProcMacro<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> Item {
Item {
name: Some(self.name.clean(cx)),
attrs: self.attrs.clean(cx),
- source: self.whence.clean(cx),
- visibility: Some(Public),
- stability: self.stab.clean(cx),
- deprecation: self.depr.clean(cx),
- def_id: cx.tcx.hir.local_def_id(self.id),
- inner: ProcMacroItem(ProcMacro {
- kind: self.kind,
- helpers: self.helpers.clean(cx),
- }),
+ source: self.span.clean(cx),
+ visibility: Public,
+ stability: cx.stability(self.id).clean(cx),
+ deprecation: cx.deprecation(self.id).clean(cx),
+ def_id: cx.tcx.hir().local_def_id(self.id).to_def_id(),
+ inner: ProcMacroItem(ProcMacro { kind: self.kind, helpers: self.helpers.clean(cx) }),
}
}
}
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug)]
-pub struct Stability {
- pub level: stability::StabilityLevel,
- pub feature: String,
- pub since: String,
- pub deprecated_since: String,
- pub deprecated_reason: String,
- pub unstable_reason: String,
- pub issue: Option<u32>
-}
-
-#[derive(Clone, RustcEncodable, RustcDecodable, Debug)]
-pub struct Deprecation {
- pub since: String,
- pub note: String,
-}
-
impl Clean<Stability> for attr::Stability {
- fn clean(&self, _: &DocContext) -> Stability {
+ fn clean(&self, _: &DocContext<'_>) -> Stability {
Stability {
level: stability::StabilityLevel::from_attr_level(&self.level),
feature: self.feature.to_string(),
since: match self.level {
- attr::Stable {ref since} => since.to_string(),
- _ => String::new(),
- },
- deprecated_since: match self.rustc_depr {
- Some(attr::RustcDeprecation {ref since, ..}) => since.to_string(),
- _=> String::new(),
- },
- deprecated_reason: match self.rustc_depr {
- Some(ref depr) => depr.reason.to_string(),
+ attr::Stable { ref since } => since.to_string(),
_ => String::new(),
},
unstable_reason: match self.level {
- attr::Unstable { reason: Some(ref reason), .. } => reason.to_string(),
- _ => String::new(),
+ attr::Unstable { reason: Some(ref reason), .. } => Some(reason.to_string()),
+ _ => None,
},
issue: match self.level {
- attr::Unstable {issue, ..} => Some(issue),
+ attr::Unstable { issue, .. } => issue,
_ => None,
- }
+ },
}
}
}
-impl<'a> Clean<Stability> for &'a attr::Stability {
- fn clean(&self, dc: &DocContext) -> Stability {
- (**self).clean(dc)
- }
-}
-
impl Clean<Deprecation> for attr::Deprecation {
- fn clean(&self, _: &DocContext) -> Deprecation {
+ fn clean(&self, _: &DocContext<'_>) -> Deprecation {
Deprecation {
- since: self.since.as_ref().map_or(String::new(), |s| s.to_string()),
- note: self.note.as_ref().map_or(String::new(), |s| s.to_string()),
+ since: self.since.map(|s| s.to_string()).filter(|s| !s.is_empty()),
+ note: self.note.map(|n| n.to_string()).filter(|n| !n.is_empty()),
+ is_since_rustc_version: self.is_since_rustc_version,
}
}
}
-/// An equality constraint on an associated type, e.g. `A=Bar` in `Foo<A=Bar>`
-#[derive(Clone, PartialEq, Eq, RustcDecodable, RustcEncodable, Debug, Hash)]
-pub struct TypeBinding {
- pub name: String,
- pub ty: Type
-}
-
-impl Clean<TypeBinding> for hir::TypeBinding {
- fn clean(&self, cx: &DocContext) -> TypeBinding {
- TypeBinding {
- name: self.ident.name.clean(cx),
- ty: self.ty.clean(cx)
- }
+impl Clean<TypeBinding> for hir::TypeBinding<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> TypeBinding {
+ TypeBinding { name: self.ident.name.clean(cx), kind: self.kind.clean(cx) }
}
}
-pub fn def_id_to_path(cx: &DocContext, did: DefId, name: Option<String>) -> Vec<String> {
- let crate_name = name.unwrap_or_else(|| cx.tcx.crate_name(did.krate).to_string());
- let relative = cx.tcx.def_path(did).data.into_iter().filter_map(|elem| {
- // extern blocks have an empty name
- let s = elem.data.to_string();
- if !s.is_empty() {
- Some(s)
- } else {
- None
- }
- });
- once(crate_name).chain(relative).collect()
-}
-
-pub fn enter_impl_trait<F, R>(cx: &DocContext, f: F) -> R
-where
- F: FnOnce() -> R,
-{
- let old_bounds = mem::replace(&mut *cx.impl_trait_bounds.borrow_mut(), Default::default());
- let r = f();
- assert!(cx.impl_trait_bounds.borrow().is_empty());
- *cx.impl_trait_bounds.borrow_mut() = old_bounds;
- r
-}
-
-// Start of code copied from rust-clippy
-
-pub fn path_to_def_local(tcx: &TyCtxt, path: &[&str]) -> Option<DefId> {
- let krate = tcx.hir.krate();
- let mut items = krate.module.item_ids.clone();
- let mut path_it = path.iter().peekable();
-
- loop {
- let segment = match path_it.next() {
- Some(segment) => segment,
- None => return None,
- };
-
- for item_id in mem::replace(&mut items, HirVec::new()).iter() {
- let item = tcx.hir.expect_item(item_id.id);
- if item.name == *segment {
- if path_it.peek().is_none() {
- return Some(tcx.hir.local_def_id(item_id.id))
- }
-
- items = match &item.node {
- &hir::ItemKind::Mod(ref m) => m.item_ids.clone(),
- _ => panic!("Unexpected item {:?} in path {:?} path")
- };
- break;
+impl Clean<TypeBindingKind> for hir::TypeBindingKind<'_> {
+ fn clean(&self, cx: &DocContext<'_>) -> TypeBindingKind {
+ match *self {
+ hir::TypeBindingKind::Equality { ref ty } => {
+ TypeBindingKind::Equality { ty: ty.clean(cx) }
}
- }
- }
-}
-
-pub fn path_to_def(tcx: &TyCtxt, path: &[&str]) -> Option<DefId> {
- let crates = tcx.crates();
-
- let krate = crates
- .iter()
- .find(|&&krate| tcx.crate_name(krate) == path[0]);
-
- if let Some(krate) = krate {
- let krate = DefId {
- krate: *krate,
- index: CRATE_DEF_INDEX,
- };
- let mut items = tcx.item_children(krate);
- let mut path_it = path.iter().skip(1).peekable();
-
- loop {
- let segment = match path_it.next() {
- Some(segment) => segment,
- None => return None,
- };
-
- for item in mem::replace(&mut items, Lrc::new(vec![])).iter() {
- if item.ident.name == *segment {
- if path_it.peek().is_none() {
- return match item.def {
- def::Def::Trait(did) => Some(did),
- _ => None,
- }
- }
-
- items = tcx.item_children(item.def.def_id());
- break;
- }
+ hir::TypeBindingKind::Constraint { ref bounds } => {
+ TypeBindingKind::Constraint { bounds: bounds.iter().map(|b| b.clean(cx)).collect() }
}
}
- } else {
- None
- }
-}
-
-pub fn get_path_for_type<F>(tcx: TyCtxt, def_id: DefId, def_ctor: F) -> hir::Path
-where F: Fn(DefId) -> Def {
- #[derive(Debug)]
- struct AbsolutePathBuffer {
- names: Vec<String>,
- }
-
- impl ty::item_path::ItemPathBuffer for AbsolutePathBuffer {
- fn root_mode(&self) -> &ty::item_path::RootMode {
- const ABSOLUTE: &'static ty::item_path::RootMode = &ty::item_path::RootMode::Absolute;
- ABSOLUTE
- }
-
- fn push(&mut self, text: &str) {
- self.names.push(text.to_owned());
- }
- }
-
- let mut apb = AbsolutePathBuffer { names: vec![] };
-
- tcx.push_item_path(&mut apb, def_id, false);
-
- hir::Path {
- span: DUMMY_SP,
- def: def_ctor(def_id),
- segments: hir::HirVec::from_vec(apb.names.iter().map(|s| hir::PathSegment {
- ident: ast::Ident::from_str(&s),
- id: None,
- def: None,
- args: None,
- infer_types: false,
- }).collect())
}
}
-// End of code copied from rust-clippy
-
-
-#[derive(Eq, PartialEq, Hash, Copy, Clone, Debug)]
-enum RegionTarget<'tcx> {
- Region(Region<'tcx>),
- RegionVid(RegionVid)
-}
-
-#[derive(Default, Debug, Clone)]
-struct RegionDeps<'tcx> {
- larger: FxHashSet<RegionTarget<'tcx>>,
- smaller: FxHashSet<RegionTarget<'tcx>>
-}
-
-#[derive(Eq, PartialEq, Hash, Debug)]
enum SimpleBound {
TraitBound(Vec<PathSegment>, Vec<SimpleBound>, Vec<GenericParamDef>, hir::TraitBoundModifier),
Outlives(Lifetime),
}
-enum AutoTraitResult {
- ExplicitImpl,
- PositiveImpl(Generics),
- NegativeImpl,
-}
-
-impl AutoTraitResult {
- fn is_auto(&self) -> bool {
- match *self {
- AutoTraitResult::PositiveImpl(_) | AutoTraitResult::NegativeImpl => true,
- _ => false,
- }
- }
-}
-
impl From<GenericBound> for SimpleBound {
fn from(bound: GenericBound) -> Self {
match bound.clone() {
GenericBound::Outlives(l) => SimpleBound::Outlives(l),
GenericBound::TraitBound(t, mod_) => match t.trait_ {
- Type::ResolvedPath { path, typarams, .. } => {
- SimpleBound::TraitBound(path.segments,
- typarams
- .map_or_else(|| Vec::new(), |v| v.iter()
- .map(|p| SimpleBound::from(p.clone()))
- .collect()),
- t.generic_params,
- mod_)
- }
+ Type::ResolvedPath { path, param_names, .. } => SimpleBound::TraitBound(
+ path.segments,
+ param_names.map_or_else(Vec::new, |v| {
+ v.iter().map(|p| SimpleBound::from(p.clone())).collect()
+ }),
+ t.generic_params,
+ mod_,
+ ),
_ => panic!("Unexpected bound {:?}", bound),
- }
+ },
}
}
}