| use crate::clean::auto_trait::AutoTraitFinder; |
| use crate::clean::blanket_impl::BlanketImplFinder; |
| use crate::clean::{ |
| inline, Clean, Crate, Deprecation, ExternalCrate, FnDecl, FunctionRetTy, Generic, GenericArg, |
| GenericArgs, GenericBound, Generics, GetDefId, ImportSource, Item, ItemEnum, MacroKind, Path, |
| PathSegment, Primitive, PrimitiveType, ResolvedPath, Span, Stability, Type, TypeBinding, |
| TypeKind, Visibility, WherePredicate, |
| }; |
| use crate::core::DocContext; |
| |
| use itertools::Itertools; |
| use rustc::mir::interpret::{sign_extend, ConstValue, Scalar}; |
| use rustc::ty::subst::{GenericArgKind, SubstsRef}; |
| use rustc::ty::{self, DefIdTree, Ty}; |
| use rustc_data_structures::fx::FxHashSet; |
| use rustc_hir as hir; |
| use rustc_hir::def::{DefKind, Res}; |
| use rustc_hir::def_id::{DefId, LOCAL_CRATE}; |
| use rustc_span; |
| use rustc_span::symbol::{kw, sym, Symbol}; |
| use std::mem; |
| |
| pub fn krate(mut cx: &mut DocContext<'_>) -> Crate { |
| use crate::visit_lib::LibEmbargoVisitor; |
| |
| let krate = cx.tcx.hir().krate(); |
| let module = crate::visit_ast::RustdocVisitor::new(&mut cx).visit(krate); |
| |
| let mut r = cx.renderinfo.get_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(&mut 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 = module.clean(cx); |
| let mut masked_crates = FxHashSet::default(); |
| |
| match module.inner { |
| ItemEnum::ModuleItem(ref module) => { |
| for it in &module.items { |
| // `compiler_builtins` should be masked too, but we can't apply |
| // `#[doc(masked)]` to the injected `extern crate` because it's unstable. |
| if it.is_extern_crate() |
| && (it.attrs.has_doc_flag(sym::masked) |
| || cx.tcx.is_compiler_builtins(it.def_id.krate)) |
| { |
| masked_crates.insert(it.def_id.krate); |
| } |
| } |
| } |
| _ => unreachable!(), |
| } |
| |
| let ExternalCrate { name, src, primitives, keywords, .. } = LOCAL_CRATE.clean(cx); |
| { |
| let m = match module.inner { |
| ItemEnum::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: Visibility::Public, |
| stability: get_stability(cx, def_id), |
| deprecation: get_deprecation(cx, def_id), |
| def_id, |
| inner: ItemEnum::PrimitiveItem(prim), |
| })); |
| m.items.extend(keywords.into_iter().map(|(def_id, kw, attrs)| Item { |
| source: Span::empty(), |
| name: Some(kw.clone()), |
| attrs, |
| visibility: Visibility::Public, |
| stability: get_stability(cx, def_id), |
| deprecation: get_deprecation(cx, def_id), |
| def_id, |
| inner: ItemEnum::KeywordItem(kw), |
| })); |
| } |
| |
| Crate { |
| name, |
| version: None, |
| src, |
| module: Some(module), |
| externs, |
| primitives, |
| external_traits: cx.external_traits.clone(), |
| masked_crates, |
| collapsed: false, |
| } |
| } |
| |
| // extract the stability index for a node from tcx, if possible |
| pub fn get_stability(cx: &DocContext<'_>, def_id: DefId) -> Option<Stability> { |
| cx.tcx.lookup_stability(def_id).clean(cx) |
| } |
| |
| pub fn get_deprecation(cx: &DocContext<'_>, def_id: DefId) -> Option<Deprecation> { |
| cx.tcx.lookup_deprecation(def_id).clean(cx) |
| } |
| |
| pub fn external_generic_args( |
| cx: &DocContext<'_>, |
| trait_did: Option<DefId>, |
| has_self: bool, |
| bindings: Vec<TypeBinding>, |
| substs: SubstsRef<'_>, |
| ) -> GenericArgs { |
| let mut skip_self = has_self; |
| let mut ty_kind = None; |
| let args: Vec<_> = substs |
| .iter() |
| .filter_map(|kind| match kind.unpack() { |
| GenericArgKind::Lifetime(lt) => { |
| lt.clean(cx).and_then(|lt| Some(GenericArg::Lifetime(lt))) |
| } |
| GenericArgKind::Type(_) if skip_self => { |
| skip_self = false; |
| None |
| } |
| GenericArgKind::Type(ty) => { |
| ty_kind = Some(&ty.kind); |
| Some(GenericArg::Type(ty.clean(cx))) |
| } |
| GenericArgKind::Const(ct) => Some(GenericArg::Const(ct.clean(cx))), |
| }) |
| .collect(); |
| |
| 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!(ty_kind.is_some()); |
| let inputs = match ty_kind { |
| Some(ty::Tuple(ref tys)) => tys.iter().map(|t| t.expect_ty().clean(cx)).collect(), |
| _ => return GenericArgs::AngleBracketed { args, bindings }, |
| }; |
| let output = None; |
| // FIXME(#20299) return type comes from a projection now |
| // match types[1].kind { |
| // ty::Tuple(ref v) if v.is_empty() => None, // -> () |
| // _ => Some(types[1].clean(cx)) |
| // }; |
| GenericArgs::Parenthesized { inputs, output } |
| } |
| _ => GenericArgs::AngleBracketed { args, bindings }, |
| } |
| } |
| |
| // 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 |
| pub fn external_path( |
| cx: &DocContext<'_>, |
| name: Symbol, |
| trait_did: Option<DefId>, |
| has_self: bool, |
| bindings: Vec<TypeBinding>, |
| substs: SubstsRef<'_>, |
| ) -> Path { |
| Path { |
| global: false, |
| res: Res::Err, |
| segments: vec![PathSegment { |
| name: name.to_string(), |
| args: external_generic_args(cx, trait_did, has_self, bindings, substs), |
| }], |
| } |
| } |
| |
| /// The point of this function is to replace bounds with types. |
| /// |
| /// i.e. `[T, U]` when you have the following bounds: `T: Display, U: Option<T>` will return |
| /// `[Display, Option]` (we just returns the list of the types, we don't care about the |
| /// wrapped types in here). |
| pub fn get_real_types( |
| generics: &Generics, |
| arg: &Type, |
| cx: &DocContext<'_>, |
| recurse: i32, |
| ) -> FxHashSet<Type> { |
| let arg_s = arg.print().to_string(); |
| let mut res = FxHashSet::default(); |
| if recurse >= 10 { |
| // FIXME: remove this whole recurse thing when the recursion bug is fixed |
| return res; |
| } |
| if arg.is_full_generic() { |
| if let Some(where_pred) = generics.where_predicates.iter().find(|g| match g { |
| &WherePredicate::BoundPredicate { ref ty, .. } => ty.def_id() == arg.def_id(), |
| _ => false, |
| }) { |
| let bounds = where_pred.get_bounds().unwrap_or_else(|| &[]); |
| for bound in bounds.iter() { |
| match *bound { |
| GenericBound::TraitBound(ref poly_trait, _) => { |
| for x in poly_trait.generic_params.iter() { |
| if !x.is_type() { |
| continue; |
| } |
| if let Some(ty) = x.get_type() { |
| let adds = get_real_types(generics, &ty, cx, recurse + 1); |
| if !adds.is_empty() { |
| res.extend(adds); |
| } else if !ty.is_full_generic() { |
| res.insert(ty); |
| } |
| } |
| } |
| } |
| _ => {} |
| } |
| } |
| } |
| if let Some(bound) = generics.params.iter().find(|g| g.is_type() && g.name == arg_s) { |
| for bound in bound.get_bounds().unwrap_or_else(|| &[]) { |
| if let Some(ty) = bound.get_trait_type() { |
| let adds = get_real_types(generics, &ty, cx, recurse + 1); |
| if !adds.is_empty() { |
| res.extend(adds); |
| } else if !ty.is_full_generic() { |
| res.insert(ty.clone()); |
| } |
| } |
| } |
| } |
| } else { |
| res.insert(arg.clone()); |
| if let Some(gens) = arg.generics() { |
| for gen in gens.iter() { |
| if gen.is_full_generic() { |
| let adds = get_real_types(generics, gen, cx, recurse + 1); |
| if !adds.is_empty() { |
| res.extend(adds); |
| } |
| } else { |
| res.insert(gen.clone()); |
| } |
| } |
| } |
| } |
| res |
| } |
| |
| /// Return the full list of types when bounds have been resolved. |
| /// |
| /// i.e. `fn foo<A: Display, B: Option<A>>(x: u32, y: B)` will return |
| /// `[u32, Display, Option]`. |
| pub fn get_all_types( |
| generics: &Generics, |
| decl: &FnDecl, |
| cx: &DocContext<'_>, |
| ) -> (Vec<Type>, Vec<Type>) { |
| let mut all_types = FxHashSet::default(); |
| for arg in decl.inputs.values.iter() { |
| if arg.type_.is_self_type() { |
| continue; |
| } |
| let args = get_real_types(generics, &arg.type_, cx, 0); |
| if !args.is_empty() { |
| all_types.extend(args); |
| } else { |
| all_types.insert(arg.type_.clone()); |
| } |
| } |
| |
| let ret_types = match decl.output { |
| FunctionRetTy::Return(ref return_type) => { |
| let mut ret = get_real_types(generics, &return_type, cx, 0); |
| if ret.is_empty() { |
| ret.insert(return_type.clone()); |
| } |
| ret.into_iter().collect() |
| } |
| _ => Vec::new(), |
| }; |
| (all_types.into_iter().collect(), ret_types) |
| } |
| |
| pub fn strip_type(ty: Type) -> Type { |
| match ty { |
| Type::ResolvedPath { path, param_names, did, is_generic } => { |
| Type::ResolvedPath { path: strip_path(&path), param_names, 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::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, |
| } |
| } |
| |
| pub fn strip_path(path: &Path) -> Path { |
| let segments = path |
| .segments |
| .iter() |
| .map(|s| PathSegment { |
| name: s.name.clone(), |
| args: GenericArgs::AngleBracketed { args: vec![], bindings: vec![] }, |
| }) |
| .collect(); |
| |
| Path { global: path.global, res: path.res.clone(), segments } |
| } |
| |
| pub 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 != kw::PathRoot { |
| s.push_str(&seg.ident.as_str()); |
| } |
| } |
| s |
| } |
| |
| pub fn build_deref_target_impls(cx: &DocContext<'_>, items: &[Item], ret: &mut Vec<Item>) { |
| use self::PrimitiveType::*; |
| let tcx = cx.tcx; |
| |
| for item in items { |
| let target = match item.inner { |
| ItemEnum::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, None)); |
| 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 => tcx.lang_items().bool_impl(), |
| 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, None, ret); |
| } |
| } |
| } |
| } |
| |
| pub trait ToSource { |
| fn to_src(&self, cx: &DocContext<'_>) -> String; |
| } |
| |
| impl ToSource for rustc_span::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 |
| } |
| } |
| |
| pub fn name_from_pat(p: &hir::Pat) -> String { |
| use rustc_hir::*; |
| debug!("trying to get a name from pattern: {:?}", p); |
| |
| match p.kind { |
| 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(|fp| format!("{}: {}", fp.ident, name_from_pat(&fp.pat))) |
| .collect::<Vec<String>>() |
| .join(", "), |
| if etc { ", .." } else { "" } |
| ), |
| PatKind::Or(ref pats) => { |
| pats.iter().map(|p| name_from_pat(&**p)).collect::<Vec<String>>().join(" | ") |
| } |
| 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(", ")) |
| } |
| } |
| } |
| |
| pub fn print_const(cx: &DocContext<'_>, n: &ty::Const<'_>) -> String { |
| match n.val { |
| ty::ConstKind::Unevaluated(def_id, _, promoted) => { |
| let mut s = if let Some(hir_id) = cx.tcx.hir().as_local_hir_id(def_id) { |
| print_const_expr(cx, cx.tcx.hir().body_owned_by(hir_id)) |
| } else { |
| inline::print_inlined_const(cx, def_id) |
| }; |
| if let Some(promoted) = promoted { |
| s.push_str(&format!("::{:?}", promoted)) |
| } |
| s |
| } |
| _ => { |
| let mut s = n.to_string(); |
| // array lengths are obviously usize |
| if s.ends_with("usize") { |
| let n = s.len() - "usize".len(); |
| s.truncate(n); |
| if s.ends_with(": ") { |
| let n = s.len() - ": ".len(); |
| s.truncate(n); |
| } |
| } |
| s |
| } |
| } |
| } |
| |
| pub fn print_evaluated_const(cx: &DocContext<'_>, def_id: DefId) -> Option<String> { |
| let value = |
| cx.tcx.const_eval_poly(def_id).ok().and_then(|value| match (value.val, &value.ty.kind) { |
| (_, ty::Ref(..)) => None, |
| (ty::ConstKind::Value(ConstValue::Scalar(_)), ty::Adt(_, _)) => None, |
| (ty::ConstKind::Value(ConstValue::Scalar(_)), _) => { |
| Some(print_const_with_custom_print_scalar(cx, value)) |
| } |
| _ => None, |
| }); |
| |
| value |
| } |
| |
| fn format_integer_with_underscore_sep(num: &str) -> String { |
| let num_chars: Vec<_> = num.chars().collect(); |
| let num_start_index = if num_chars.get(0) == Some(&'-') { 1 } else { 0 }; |
| |
| num_chars[..num_start_index] |
| .iter() |
| .chain(num_chars[num_start_index..].rchunks(3).rev().intersperse(&['_']).flatten()) |
| .collect() |
| } |
| |
| fn print_const_with_custom_print_scalar(cx: &DocContext<'_>, ct: &'tcx ty::Const<'tcx>) -> String { |
| // Use a slightly different format for integer types which always shows the actual value. |
| // For all other types, fallback to the original `pretty_print_const`. |
| match (ct.val, &ct.ty.kind) { |
| (ty::ConstKind::Value(ConstValue::Scalar(Scalar::Raw { data, .. })), ty::Uint(ui)) => { |
| format!("{}{}", format_integer_with_underscore_sep(&data.to_string()), ui.name_str()) |
| } |
| (ty::ConstKind::Value(ConstValue::Scalar(Scalar::Raw { data, .. })), ty::Int(i)) => { |
| let ty = cx.tcx.lift(&ct.ty).unwrap(); |
| let size = cx.tcx.layout_of(ty::ParamEnv::empty().and(ty)).unwrap().size; |
| let sign_extended_data = sign_extend(data, size) as i128; |
| |
| format!( |
| "{}{}", |
| format_integer_with_underscore_sep(&sign_extended_data.to_string()), |
| i.name_str() |
| ) |
| } |
| _ => ct.to_string(), |
| } |
| } |
| |
| pub fn is_literal_expr(cx: &DocContext<'_>, hir_id: hir::HirId) -> bool { |
| if let hir::Node::Expr(expr) = cx.tcx.hir().get(hir_id) { |
| if let hir::ExprKind::Lit(_) = &expr.kind { |
| return true; |
| } |
| |
| if let hir::ExprKind::Unary(hir::UnOp::UnNeg, expr) = &expr.kind { |
| if let hir::ExprKind::Lit(_) = &expr.kind { |
| return true; |
| } |
| } |
| } |
| |
| false |
| } |
| |
| pub fn print_const_expr(cx: &DocContext<'_>, body: hir::BodyId) -> String { |
| let value = &cx.tcx.hir().body(body).value; |
| |
| let snippet = if !value.span.from_expansion() { |
| cx.sess().source_map().span_to_snippet(value.span).ok() |
| } else { |
| None |
| }; |
| |
| snippet.unwrap_or_else(|| cx.tcx.hir().hir_to_pretty_string(body.hir_id)) |
| } |
| |
| /// Given a type Path, resolve it to a Type using the TyCtxt |
| pub fn resolve_type(cx: &DocContext<'_>, path: Path, id: hir::HirId) -> Type { |
| if id == hir::DUMMY_HIR_ID { |
| debug!("resolve_type({:?})", path); |
| } else { |
| debug!("resolve_type({:?},{:?})", path, id); |
| } |
| |
| let is_generic = match path.res { |
| Res::PrimTy(p) => match p { |
| hir::PrimTy::Str => return Primitive(PrimitiveType::Str), |
| hir::PrimTy::Bool => return Primitive(PrimitiveType::Bool), |
| hir::PrimTy::Char => return Primitive(PrimitiveType::Char), |
| hir::PrimTy::Int(int_ty) => return Primitive(int_ty.into()), |
| hir::PrimTy::Uint(uint_ty) => return Primitive(uint_ty.into()), |
| hir::PrimTy::Float(float_ty) => return Primitive(float_ty.into()), |
| }, |
| Res::SelfTy(..) if path.segments.len() == 1 => { |
| return Generic(kw::SelfUpper.to_string()); |
| } |
| Res::Def(DefKind::TyParam, _) if path.segments.len() == 1 => { |
| return Generic(format!("{:#}", path.print())); |
| } |
| Res::SelfTy(..) | Res::Def(DefKind::TyParam, _) | Res::Def(DefKind::AssocTy, _) => true, |
| _ => false, |
| }; |
| let did = register_res(&*cx, path.res); |
| ResolvedPath { path, param_names: None, did, is_generic } |
| } |
| |
| pub fn get_auto_trait_and_blanket_impls( |
| cx: &DocContext<'tcx>, |
| ty: Ty<'tcx>, |
| param_env_def_id: DefId, |
| ) -> impl Iterator<Item = Item> { |
| AutoTraitFinder::new(cx) |
| .get_auto_trait_impls(ty, param_env_def_id) |
| .into_iter() |
| .chain(BlanketImplFinder::new(cx).get_blanket_impls(ty, param_env_def_id)) |
| } |
| |
| pub fn register_res(cx: &DocContext<'_>, res: Res) -> DefId { |
| debug!("register_res({:?})", res); |
| |
| let (did, kind) = match res { |
| Res::Def(DefKind::Fn, i) => (i, TypeKind::Function), |
| Res::Def(DefKind::TyAlias, i) => (i, TypeKind::Typedef), |
| Res::Def(DefKind::Enum, i) => (i, TypeKind::Enum), |
| Res::Def(DefKind::Trait, i) => (i, TypeKind::Trait), |
| Res::Def(DefKind::Struct, i) => (i, TypeKind::Struct), |
| Res::Def(DefKind::Union, i) => (i, TypeKind::Union), |
| Res::Def(DefKind::Mod, i) => (i, TypeKind::Module), |
| Res::Def(DefKind::ForeignTy, i) => (i, TypeKind::Foreign), |
| Res::Def(DefKind::Const, i) => (i, TypeKind::Const), |
| Res::Def(DefKind::Static, i) => (i, TypeKind::Static), |
| Res::Def(DefKind::Variant, i) => { |
| (cx.tcx.parent(i).expect("cannot get parent def id"), TypeKind::Enum) |
| } |
| Res::Def(DefKind::Macro(mac_kind), i) => match mac_kind { |
| MacroKind::Bang => (i, TypeKind::Macro), |
| MacroKind::Attr => (i, TypeKind::Attr), |
| MacroKind::Derive => (i, TypeKind::Derive), |
| }, |
| Res::Def(DefKind::TraitAlias, i) => (i, TypeKind::TraitAlias), |
| Res::SelfTy(Some(def_id), _) => (def_id, TypeKind::Trait), |
| Res::SelfTy(_, Some(impl_def_id)) => return impl_def_id, |
| _ => return res.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 |
| } |
| |
| pub fn resolve_use_source(cx: &DocContext<'_>, path: Path) -> ImportSource { |
| ImportSource { |
| did: if path.res.opt_def_id().is_none() { None } else { Some(register_res(cx, path.res)) }, |
| path, |
| } |
| } |
| |
| pub fn enter_impl_trait<F, R>(cx: &DocContext<'_>, f: F) -> R |
| where |
| F: FnOnce() -> R, |
| { |
| let old_bounds = mem::take(&mut *cx.impl_trait_bounds.borrow_mut()); |
| let r = f(); |
| assert!(cx.impl_trait_bounds.borrow().is_empty()); |
| *cx.impl_trait_bounds.borrow_mut() = old_bounds; |
| r |
| } |