use rustc::middle::subst;
use rustc::middle::stability;
-use core;
+use core::DocContext;
use doctree;
use clean;
///
/// The returned value is `None` if the `id` could not be inlined, and `Some`
/// of a vector of items if it was successfully expanded.
-pub fn try_inline(id: ast::NodeId, into: Option<ast::Ident>)
+pub fn try_inline(cx: &DocContext, id: ast::NodeId, into: Option<ast::Ident>)
-> Option<Vec<clean::Item>> {
- let cx = ::ctxtkey.get().unwrap();
- let tcx = match cx.maybe_typed {
- core::Typed(ref tycx) => tycx,
- core::NotTyped(_) => return None,
+ let tcx = match cx.tcx_opt() {
+ Some(tcx) => tcx,
+ None => return None,
};
let def = match tcx.def_map.borrow().find(&id) {
Some(def) => *def,
};
let did = def.def_id();
if ast_util::is_local(did) { return None }
- try_inline_def(&**cx, tcx, def).map(|vec| {
- vec.move_iter().map(|mut item| {
+ try_inline_def(cx, tcx, def).map(|vec| {
+ vec.into_iter().map(|mut item| {
match into {
Some(into) if item.name.is_some() => {
- item.name = Some(into.clean());
+ item.name = Some(into.clean(cx));
}
_ => {}
}
})
}
-fn try_inline_def(cx: &core::DocContext,
- tcx: &ty::ctxt,
+fn try_inline_def(cx: &DocContext, tcx: &ty::ctxt,
def: def::Def) -> Option<Vec<clean::Item>> {
let mut ret = Vec::new();
let did = def.def_id();
let inner = match def {
def::DefTrait(did) => {
record_extern_fqn(cx, did, clean::TypeTrait);
- clean::TraitItem(build_external_trait(tcx, did))
+ clean::TraitItem(build_external_trait(cx, tcx, did))
}
def::DefFn(did, style) => {
// If this function is a tuple struct constructor, we just skip it
return None
}
record_extern_fqn(cx, did, clean::TypeFunction);
- clean::FunctionItem(build_external_function(tcx, did, style))
+ clean::FunctionItem(build_external_function(cx, tcx, did, style))
}
def::DefStruct(did) => {
record_extern_fqn(cx, did, clean::TypeStruct);
- ret.extend(build_impls(cx, tcx, did).move_iter());
- clean::StructItem(build_struct(tcx, did))
+ ret.extend(build_impls(cx, tcx, did).into_iter());
+ clean::StructItem(build_struct(cx, tcx, did))
+ }
+ def::DefTy(did, false) => {
+ record_extern_fqn(cx, did, clean::TypeTypedef);
+ ret.extend(build_impls(cx, tcx, did).into_iter());
+ build_type(cx, tcx, did)
}
- def::DefTy(did) => {
+ def::DefTy(did, true) => {
record_extern_fqn(cx, did, clean::TypeEnum);
- ret.extend(build_impls(cx, tcx, did).move_iter());
- build_type(tcx, did)
+ ret.extend(build_impls(cx, tcx, did).into_iter());
+ build_type(cx, tcx, did)
}
// Assume that the enum type is reexported next to the variant, and
// variants don't show up in documentation specially.
}
def::DefStatic(did, mtbl) => {
record_extern_fqn(cx, did, clean::TypeStatic);
- clean::StaticItem(build_static(tcx, did, mtbl))
+ clean::StaticItem(build_static(cx, tcx, did, mtbl))
}
_ => return None,
};
ret.push(clean::Item {
source: clean::Span::empty(),
name: Some(fqn.last().unwrap().to_string()),
- attrs: load_attrs(tcx, did),
+ attrs: load_attrs(cx, tcx, did),
inner: inner,
visibility: Some(ast::Public),
- stability: stability::lookup(tcx, did).clean(),
+ stability: stability::lookup(tcx, did).clean(cx),
def_id: did,
});
Some(ret)
}
-pub fn load_attrs(tcx: &ty::ctxt, did: ast::DefId) -> Vec<clean::Attribute> {
+pub fn load_attrs(cx: &DocContext, tcx: &ty::ctxt,
+ did: ast::DefId) -> Vec<clean::Attribute> {
let mut attrs = Vec::new();
csearch::get_item_attrs(&tcx.sess.cstore, did, |v| {
- attrs.extend(v.move_iter().map(|a| {
- a.clean()
+ attrs.extend(v.into_iter().map(|a| {
+ a.clean(cx)
}));
});
attrs
///
/// These names are used later on by HTML rendering to generate things like
/// source links back to the original item.
-pub fn record_extern_fqn(cx: &core::DocContext,
- did: ast::DefId,
- kind: clean::TypeKind) {
- match cx.maybe_typed {
- core::Typed(ref tcx) => {
+pub fn record_extern_fqn(cx: &DocContext, did: ast::DefId, kind: clean::TypeKind) {
+ match cx.tcx_opt() {
+ Some(tcx) => {
let fqn = csearch::get_item_path(tcx, did);
- let fqn = fqn.move_iter().map(|i| i.to_string()).collect();
+ let fqn = fqn.into_iter().map(|i| i.to_string()).collect();
cx.external_paths.borrow_mut().as_mut().unwrap().insert(did, (fqn, kind));
}
- core::NotTyped(..) => {}
+ None => {}
}
}
-pub fn build_external_trait(tcx: &ty::ctxt, did: ast::DefId) -> clean::Trait {
+pub fn build_external_trait(cx: &DocContext, tcx: &ty::ctxt,
+ did: ast::DefId) -> clean::Trait {
let def = ty::lookup_trait_def(tcx, did);
- let trait_items = ty::trait_items(tcx, did).clean();
+ let trait_items = ty::trait_items(tcx, did).clean(cx);
let provided = ty::provided_trait_methods(tcx, did);
- let mut items = trait_items.move_iter().map(|trait_item| {
+ let mut items = trait_items.into_iter().map(|trait_item| {
if provided.iter().any(|a| a.def_id == trait_item.def_id) {
clean::ProvidedMethod(trait_item)
} else {
}
});
let trait_def = ty::lookup_trait_def(tcx, did);
- let bounds = trait_def.bounds.clean();
+ let bounds = trait_def.bounds.clean(cx);
clean::Trait {
- generics: (&def.generics, subst::TypeSpace).clean(),
+ generics: (&def.generics, subst::TypeSpace).clean(cx),
items: items.collect(),
bounds: bounds,
}
}
-fn build_external_function(tcx: &ty::ctxt,
+fn build_external_function(cx: &DocContext, tcx: &ty::ctxt,
did: ast::DefId,
style: ast::FnStyle) -> clean::Function {
let t = ty::lookup_item_type(tcx, did);
clean::Function {
decl: match ty::get(t.ty).sty {
- ty::ty_bare_fn(ref f) => (did, &f.sig).clean(),
+ ty::ty_bare_fn(ref f) => (did, &f.sig).clean(cx),
_ => fail!("bad function"),
},
- generics: (&t.generics, subst::FnSpace).clean(),
+ generics: (&t.generics, subst::FnSpace).clean(cx),
fn_style: style,
}
}
-fn build_struct(tcx: &ty::ctxt, did: ast::DefId) -> clean::Struct {
+fn build_struct(cx: &DocContext, tcx: &ty::ctxt, did: ast::DefId) -> clean::Struct {
use syntax::parse::token::special_idents::unnamed_field;
let t = ty::lookup_item_type(tcx, did);
[ref f, ..] if f.name == unnamed_field.name => doctree::Tuple,
_ => doctree::Plain,
},
- generics: (&t.generics, subst::TypeSpace).clean(),
- fields: fields.clean(),
+ generics: (&t.generics, subst::TypeSpace).clean(cx),
+ fields: fields.clean(cx),
fields_stripped: false,
}
}
-fn build_type(tcx: &ty::ctxt, did: ast::DefId) -> clean::ItemEnum {
+fn build_type(cx: &DocContext, tcx: &ty::ctxt, did: ast::DefId) -> clean::ItemEnum {
let t = ty::lookup_item_type(tcx, did);
match ty::get(t.ty).sty {
ty::ty_enum(edid, _) if !csearch::is_typedef(&tcx.sess.cstore, did) => {
return clean::EnumItem(clean::Enum {
- generics: (&t.generics, subst::TypeSpace).clean(),
+ generics: (&t.generics, subst::TypeSpace).clean(cx),
variants_stripped: false,
- variants: ty::enum_variants(tcx, edid).clean(),
+ variants: ty::enum_variants(tcx, edid).clean(cx),
})
}
_ => {}
}
clean::TypedefItem(clean::Typedef {
- type_: t.ty.clean(),
- generics: (&t.generics, subst::TypeSpace).clean(),
+ type_: t.ty.clean(cx),
+ generics: (&t.generics, subst::TypeSpace).clean(cx),
})
}
-fn build_impls(cx: &core::DocContext,
- tcx: &ty::ctxt,
+fn build_impls(cx: &DocContext, tcx: &ty::ctxt,
did: ast::DefId) -> Vec<clean::Item> {
ty::populate_implementations_for_type_if_necessary(tcx, did);
let mut impls = Vec::new();
match tcx.inherent_impls.borrow().find(&did) {
None => {}
Some(i) => {
- impls.extend(i.borrow().iter().map(|&did| { build_impl(cx, tcx, did) }));
+ impls.extend(i.iter().map(|&did| { build_impl(cx, tcx, did) }));
}
}
populate_impls(cx, tcx, def, &mut impls)
});
- fn populate_impls(cx: &core::DocContext,
- tcx: &ty::ctxt,
+ fn populate_impls(cx: &DocContext, tcx: &ty::ctxt,
def: decoder::DefLike,
impls: &mut Vec<Option<clean::Item>>) {
match def {
}
}
- impls.move_iter().filter_map(|a| a).collect()
+ impls.into_iter().filter_map(|a| a).collect()
}
-fn build_impl(cx: &core::DocContext,
- tcx: &ty::ctxt,
+fn build_impl(cx: &DocContext, tcx: &ty::ctxt,
did: ast::DefId) -> Option<clean::Item> {
if !cx.inlined.borrow_mut().as_mut().unwrap().insert(did) {
return None
// If this is an impl for a #[doc(hidden)] trait, be sure to not inline it.
match associated_trait {
Some(ref t) => {
- let trait_attrs = load_attrs(tcx, t.def_id);
+ let trait_attrs = load_attrs(cx, tcx, t.def_id);
if trait_attrs.iter().any(|a| is_doc_hidden(a)) {
return None
}
None => {}
}
- let attrs = load_attrs(tcx, did);
+ let attrs = load_attrs(cx, tcx, did);
let ty = ty::lookup_item_type(tcx, did);
let trait_items = csearch::get_impl_items(&tcx.sess.cstore, did)
.iter()
if method.vis != ast::Public && associated_trait.is_none() {
return None
}
- let mut item = method.clean();
+ let mut item = method.clean(cx);
item.inner = match item.inner.clone() {
clean::TyMethodItem(clean::TyMethod {
fn_style, decl, self_, generics
};
Some(item)
}
+ ty::TypeTraitItem(_) => {
+ // FIXME(pcwalton): Implement.
+ None
+ }
}
}).collect();
return Some(clean::Item {
inner: clean::ImplItem(clean::Impl {
derived: clean::detect_derived(attrs.as_slice()),
- trait_: associated_trait.clean().map(|bound| {
+ trait_: associated_trait.clean(cx).map(|bound| {
match bound {
clean::TraitBound(ty) => ty,
clean::RegionBound => unreachable!(),
}
}),
- for_: ty.ty.clean(),
- generics: (&ty.generics, subst::TypeSpace).clean(),
+ for_: ty.ty.clean(cx),
+ generics: (&ty.generics, subst::TypeSpace).clean(cx),
items: trait_items,
}),
source: clean::Span::empty(),
name: None,
attrs: attrs,
visibility: Some(ast::Inherited),
- stability: stability::lookup(tcx, did).clean(),
+ stability: stability::lookup(tcx, did).clean(cx),
def_id: did,
});
}
}
-fn build_module(cx: &core::DocContext, tcx: &ty::ctxt,
+fn build_module(cx: &DocContext, tcx: &ty::ctxt,
did: ast::DefId) -> clean::Module {
let mut items = Vec::new();
fill_in(cx, tcx, did, &mut items);
// FIXME: this doesn't handle reexports inside the module itself.
// Should they be handled?
- fn fill_in(cx: &core::DocContext, tcx: &ty::ctxt, did: ast::DefId,
+ fn fill_in(cx: &DocContext, tcx: &ty::ctxt, did: ast::DefId,
items: &mut Vec<clean::Item>) {
csearch::each_child_of_item(&tcx.sess.cstore, did, |def, _, vis| {
match def {
}
decoder::DlDef(def) if vis == ast::Public => {
match try_inline_def(cx, tcx, def) {
- Some(i) => items.extend(i.move_iter()),
+ Some(i) => items.extend(i.into_iter()),
None => {}
}
}
}
}
-fn build_static(tcx: &ty::ctxt,
+fn build_static(cx: &DocContext, tcx: &ty::ctxt,
did: ast::DefId,
mutable: bool) -> clean::Static {
clean::Static {
- type_: ty::lookup_item_type(tcx, did).ty.clean(),
+ type_: ty::lookup_item_type(tcx, did).ty.clean(cx),
mutability: if mutable {clean::Mutable} else {clean::Immutable},
expr: "\n\n\n".to_string(), // trigger the "[definition]" links
}