blob: 198dc93f6b141cc277f27fc3c4d3d9f3d21032d2 [file] [log] [blame]
//! A higher level attributes based on TokenTree, with also some shortcuts.
use std::{borrow::Cow, hash::Hash, ops, slice};
use base_db::CrateId;
use cfg::{CfgExpr, CfgOptions};
use either::Either;
use hir_expand::{
attrs::{collect_attrs, Attr, AttrId, RawAttrs},
HirFileId, InFile,
};
use intern::{sym, Symbol};
use la_arena::{ArenaMap, Idx, RawIdx};
use mbe::DelimiterKind;
use syntax::{
ast::{self, HasAttrs},
AstPtr,
};
use triomphe::Arc;
use crate::{
db::DefDatabase,
item_tree::{AttrOwner, FieldParent, ItemTreeNode},
lang_item::LangItem,
nameres::{ModuleOrigin, ModuleSource},
src::{HasChildSource, HasSource},
AdtId, AttrDefId, GenericParamId, HasModule, ItemTreeLoc, LocalFieldId, Lookup, MacroId,
VariantId,
};
/// Desugared attributes of an item post `cfg_attr` expansion.
#[derive(Default, Debug, Clone, PartialEq, Eq)]
pub struct Attrs(RawAttrs);
#[derive(Debug, Clone, PartialEq, Eq)]
pub struct AttrsWithOwner {
attrs: Attrs,
owner: AttrDefId,
}
impl Attrs {
pub fn get(&self, id: AttrId) -> Option<&Attr> {
(**self).iter().find(|attr| attr.id == id)
}
pub(crate) fn filter(db: &dyn DefDatabase, krate: CrateId, raw_attrs: RawAttrs) -> Attrs {
Attrs(raw_attrs.filter(db.upcast(), krate))
}
}
impl ops::Deref for Attrs {
type Target = [Attr];
fn deref(&self) -> &[Attr] {
&self.0
}
}
impl ops::Deref for AttrsWithOwner {
type Target = Attrs;
fn deref(&self) -> &Attrs {
&self.attrs
}
}
impl Attrs {
pub const EMPTY: Self = Self(RawAttrs::EMPTY);
pub(crate) fn fields_attrs_query(
db: &dyn DefDatabase,
v: VariantId,
) -> Arc<ArenaMap<LocalFieldId, Attrs>> {
let _p = tracing::info_span!("fields_attrs_query").entered();
// FIXME: There should be some proper form of mapping between item tree field ids and hir field ids
let mut res = ArenaMap::default();
let crate_graph = db.crate_graph();
let item_tree;
let (parent, fields, krate) = match v {
VariantId::EnumVariantId(it) => {
let loc = it.lookup(db);
let krate = loc.parent.lookup(db).container.krate;
item_tree = loc.id.item_tree(db);
let variant = &item_tree[loc.id.value];
(FieldParent::Variant(loc.id.value), &variant.fields, krate)
}
VariantId::StructId(it) => {
let loc = it.lookup(db);
let krate = loc.container.krate;
item_tree = loc.id.item_tree(db);
let struct_ = &item_tree[loc.id.value];
(FieldParent::Struct(loc.id.value), &struct_.fields, krate)
}
VariantId::UnionId(it) => {
let loc = it.lookup(db);
let krate = loc.container.krate;
item_tree = loc.id.item_tree(db);
let union_ = &item_tree[loc.id.value];
(FieldParent::Union(loc.id.value), &union_.fields, krate)
}
};
let cfg_options = &crate_graph[krate].cfg_options;
let mut idx = 0;
for (id, _field) in fields.iter().enumerate() {
let attrs = item_tree.attrs(db, krate, AttrOwner::make_field_indexed(parent, id));
if attrs.is_cfg_enabled(cfg_options) {
res.insert(Idx::from_raw(RawIdx::from(idx)), attrs);
idx += 1;
}
}
Arc::new(res)
}
}
impl Attrs {
pub fn by_key<'attrs>(&'attrs self, key: &'attrs Symbol) -> AttrQuery<'_> {
AttrQuery { attrs: self, key }
}
pub fn cfg(&self) -> Option<CfgExpr> {
let mut cfgs = self.by_key(&sym::cfg).tt_values().map(CfgExpr::parse);
let first = cfgs.next()?;
match cfgs.next() {
Some(second) => {
let cfgs = [first, second].into_iter().chain(cfgs);
Some(CfgExpr::All(cfgs.collect()))
}
None => Some(first),
}
}
pub fn cfgs(&self) -> impl Iterator<Item = CfgExpr> + '_ {
self.by_key(&sym::cfg).tt_values().map(CfgExpr::parse)
}
pub(crate) fn is_cfg_enabled(&self, cfg_options: &CfgOptions) -> bool {
match self.cfg() {
None => true,
Some(cfg) => cfg_options.check(&cfg) != Some(false),
}
}
pub fn lang(&self) -> Option<&Symbol> {
self.by_key(&sym::lang).string_value()
}
pub fn lang_item(&self) -> Option<LangItem> {
self.by_key(&sym::lang).string_value().and_then(LangItem::from_symbol)
}
pub fn has_doc_hidden(&self) -> bool {
self.by_key(&sym::doc).tt_values().any(|tt| {
tt.delimiter.kind == DelimiterKind::Parenthesis &&
matches!(&*tt.token_trees, [tt::TokenTree::Leaf(tt::Leaf::Ident(ident))] if ident.sym == sym::hidden)
})
}
pub fn has_doc_notable_trait(&self) -> bool {
self.by_key(&sym::doc).tt_values().any(|tt| {
tt.delimiter.kind == DelimiterKind::Parenthesis &&
matches!(&*tt.token_trees, [tt::TokenTree::Leaf(tt::Leaf::Ident(ident))] if ident.sym == sym::notable_trait)
})
}
pub fn doc_exprs(&self) -> impl Iterator<Item = DocExpr> + '_ {
self.by_key(&sym::doc).tt_values().map(DocExpr::parse)
}
pub fn doc_aliases(&self) -> impl Iterator<Item = Symbol> + '_ {
self.doc_exprs().flat_map(|doc_expr| doc_expr.aliases().to_vec())
}
pub fn export_name(&self) -> Option<&Symbol> {
self.by_key(&sym::export_name).string_value()
}
pub fn is_proc_macro(&self) -> bool {
self.by_key(&sym::proc_macro).exists()
}
pub fn is_proc_macro_attribute(&self) -> bool {
self.by_key(&sym::proc_macro_attribute).exists()
}
pub fn is_proc_macro_derive(&self) -> bool {
self.by_key(&sym::proc_macro_derive).exists()
}
pub fn is_test(&self) -> bool {
self.iter().any(|it| {
it.path()
.segments()
.iter()
.rev()
.zip(
[sym::core.clone(), sym::prelude.clone(), sym::v1.clone(), sym::test.clone()]
.iter()
.rev(),
)
.all(|it| it.0 == it.1)
})
}
pub fn is_ignore(&self) -> bool {
self.by_key(&sym::ignore).exists()
}
pub fn is_bench(&self) -> bool {
self.by_key(&sym::bench).exists()
}
pub fn is_unstable(&self) -> bool {
self.by_key(&sym::unstable).exists()
}
}
#[derive(Debug, Clone, PartialEq, Eq, Hash)]
pub enum DocAtom {
/// eg. `#[doc(hidden)]`
Flag(Symbol),
/// eg. `#[doc(alias = "it")]`
///
/// Note that a key can have multiple values that are all considered "active" at the same time.
/// For example, `#[doc(alias = "x")]` and `#[doc(alias = "y")]`.
KeyValue { key: Symbol, value: Symbol },
}
#[derive(Debug, Clone, PartialEq, Eq, Hash)]
pub enum DocExpr {
Invalid,
/// eg. `#[doc(hidden)]`, `#[doc(alias = "x")]`
Atom(DocAtom),
/// eg. `#[doc(alias("x", "y"))]`
Alias(Vec<Symbol>),
}
impl From<DocAtom> for DocExpr {
fn from(atom: DocAtom) -> Self {
DocExpr::Atom(atom)
}
}
impl DocExpr {
fn parse<S>(tt: &tt::Subtree<S>) -> DocExpr {
next_doc_expr(&mut tt.token_trees.iter()).unwrap_or(DocExpr::Invalid)
}
pub fn aliases(&self) -> &[Symbol] {
match self {
DocExpr::Atom(DocAtom::KeyValue { key, value }) if *key == sym::alias => {
std::slice::from_ref(value)
}
DocExpr::Alias(aliases) => aliases,
_ => &[],
}
}
}
fn next_doc_expr<S>(it: &mut slice::Iter<'_, tt::TokenTree<S>>) -> Option<DocExpr> {
let name = match it.next() {
None => return None,
Some(tt::TokenTree::Leaf(tt::Leaf::Ident(ident))) => ident.sym.clone(),
Some(_) => return Some(DocExpr::Invalid),
};
// Peek
let ret = match it.as_slice().first() {
Some(tt::TokenTree::Leaf(tt::Leaf::Punct(punct))) if punct.char == '=' => {
match it.as_slice().get(1) {
Some(tt::TokenTree::Leaf(tt::Leaf::Literal(tt::Literal {
symbol: text,
kind: tt::LitKind::Str,
..
}))) => {
it.next();
it.next();
DocAtom::KeyValue { key: name, value: text.clone() }.into()
}
_ => return Some(DocExpr::Invalid),
}
}
Some(tt::TokenTree::Subtree(subtree)) => {
it.next();
let subs = parse_comma_sep(subtree);
match &name {
s if *s == sym::alias => DocExpr::Alias(subs),
_ => DocExpr::Invalid,
}
}
_ => DocAtom::Flag(name).into(),
};
// Eat comma separator
if let Some(tt::TokenTree::Leaf(tt::Leaf::Punct(punct))) = it.as_slice().first() {
if punct.char == ',' {
it.next();
}
}
Some(ret)
}
fn parse_comma_sep<S>(subtree: &tt::Subtree<S>) -> Vec<Symbol> {
subtree
.token_trees
.iter()
.filter_map(|tt| match tt {
tt::TokenTree::Leaf(tt::Leaf::Literal(tt::Literal {
kind: tt::LitKind::Str,
symbol,
..
})) => Some(symbol.clone()),
_ => None,
})
.collect()
}
impl AttrsWithOwner {
pub fn new(db: &dyn DefDatabase, owner: AttrDefId) -> Self {
Self { attrs: db.attrs(owner), owner }
}
pub(crate) fn attrs_query(db: &dyn DefDatabase, def: AttrDefId) -> Attrs {
let _p = tracing::info_span!("attrs_query").entered();
// FIXME: this should use `Trace` to avoid duplication in `source_map` below
let raw_attrs = match def {
AttrDefId::ModuleId(module) => {
let def_map = module.def_map(db);
let mod_data = &def_map[module.local_id];
match mod_data.origin {
ModuleOrigin::File { definition, declaration_tree_id, .. } => {
let decl_attrs = declaration_tree_id
.item_tree(db)
.raw_attrs(AttrOwner::ModItem(declaration_tree_id.value.into()))
.clone();
let tree = db.file_item_tree(definition.into());
let def_attrs = tree.raw_attrs(AttrOwner::TopLevel).clone();
decl_attrs.merge(def_attrs)
}
ModuleOrigin::CrateRoot { definition } => {
let tree = db.file_item_tree(definition.into());
tree.raw_attrs(AttrOwner::TopLevel).clone()
}
ModuleOrigin::Inline { definition_tree_id, .. } => definition_tree_id
.item_tree(db)
.raw_attrs(AttrOwner::ModItem(definition_tree_id.value.into()))
.clone(),
ModuleOrigin::BlockExpr { id, .. } => {
let tree = db.block_item_tree(id);
tree.raw_attrs(AttrOwner::TopLevel).clone()
}
}
}
AttrDefId::FieldId(it) => {
return db.fields_attrs(it.parent)[it.local_id].clone();
}
AttrDefId::EnumVariantId(it) => attrs_from_item_tree_loc(db, it),
AttrDefId::AdtId(it) => match it {
AdtId::StructId(it) => attrs_from_item_tree_loc(db, it),
AdtId::EnumId(it) => attrs_from_item_tree_loc(db, it),
AdtId::UnionId(it) => attrs_from_item_tree_loc(db, it),
},
AttrDefId::TraitId(it) => attrs_from_item_tree_loc(db, it),
AttrDefId::TraitAliasId(it) => attrs_from_item_tree_loc(db, it),
AttrDefId::MacroId(it) => match it {
MacroId::Macro2Id(it) => attrs_from_item_tree_loc(db, it),
MacroId::MacroRulesId(it) => attrs_from_item_tree_loc(db, it),
MacroId::ProcMacroId(it) => attrs_from_item_tree_loc(db, it),
},
AttrDefId::ImplId(it) => attrs_from_item_tree_loc(db, it),
AttrDefId::ConstId(it) => attrs_from_item_tree_loc(db, it),
AttrDefId::StaticId(it) => attrs_from_item_tree_loc(db, it),
AttrDefId::FunctionId(it) => attrs_from_item_tree_loc(db, it),
AttrDefId::TypeAliasId(it) => attrs_from_item_tree_loc(db, it),
AttrDefId::GenericParamId(it) => match it {
GenericParamId::ConstParamId(it) => {
let src = it.parent().child_source(db);
// FIXME: We should be never getting `None` here.
match src.value.get(it.local_id()) {
Some(val) => RawAttrs::from_attrs_owner(
db.upcast(),
src.with_value(val),
db.span_map(src.file_id).as_ref(),
),
None => RawAttrs::EMPTY,
}
}
GenericParamId::TypeParamId(it) => {
let src = it.parent().child_source(db);
// FIXME: We should be never getting `None` here.
match src.value.get(it.local_id()) {
Some(val) => RawAttrs::from_attrs_owner(
db.upcast(),
src.with_value(val),
db.span_map(src.file_id).as_ref(),
),
None => RawAttrs::EMPTY,
}
}
GenericParamId::LifetimeParamId(it) => {
let src = it.parent.child_source(db);
// FIXME: We should be never getting `None` here.
match src.value.get(it.local_id) {
Some(val) => RawAttrs::from_attrs_owner(
db.upcast(),
src.with_value(val),
db.span_map(src.file_id).as_ref(),
),
None => RawAttrs::EMPTY,
}
}
},
AttrDefId::ExternBlockId(it) => attrs_from_item_tree_loc(db, it),
AttrDefId::ExternCrateId(it) => attrs_from_item_tree_loc(db, it),
AttrDefId::UseId(it) => attrs_from_item_tree_loc(db, it),
};
let attrs = raw_attrs.filter(db.upcast(), def.krate(db));
Attrs(attrs)
}
pub fn source_map(&self, db: &dyn DefDatabase) -> AttrSourceMap {
let owner = match self.owner {
AttrDefId::ModuleId(module) => {
// Modules can have 2 attribute owners (the `mod x;` item, and the module file itself).
let def_map = module.def_map(db);
let mod_data = &def_map[module.local_id];
match mod_data.declaration_source(db) {
Some(it) => {
let mut map = AttrSourceMap::new(InFile::new(it.file_id, &it.value));
if let InFile { file_id, value: ModuleSource::SourceFile(file) } =
mod_data.definition_source(db)
{
map.append_module_inline_attrs(AttrSourceMap::new(InFile::new(
file_id, &file,
)));
}
return map;
}
None => {
let InFile { file_id, value } = mod_data.definition_source(db);
let attrs_owner = match &value {
ModuleSource::SourceFile(file) => file as &dyn ast::HasAttrs,
ModuleSource::Module(module) => module as &dyn ast::HasAttrs,
ModuleSource::BlockExpr(block) => block as &dyn ast::HasAttrs,
};
return AttrSourceMap::new(InFile::new(file_id, attrs_owner));
}
}
}
AttrDefId::FieldId(id) => {
let map = db.fields_attrs_source_map(id.parent);
let file_id = id.parent.file_id(db);
let root = db.parse_or_expand(file_id);
let owner = ast::AnyHasAttrs::new(map[id.local_id].to_node(&root));
InFile::new(file_id, owner)
}
AttrDefId::AdtId(adt) => match adt {
AdtId::StructId(id) => any_has_attrs(db, id),
AdtId::UnionId(id) => any_has_attrs(db, id),
AdtId::EnumId(id) => any_has_attrs(db, id),
},
AttrDefId::FunctionId(id) => any_has_attrs(db, id),
AttrDefId::EnumVariantId(id) => any_has_attrs(db, id),
AttrDefId::StaticId(id) => any_has_attrs(db, id),
AttrDefId::ConstId(id) => any_has_attrs(db, id),
AttrDefId::TraitId(id) => any_has_attrs(db, id),
AttrDefId::TraitAliasId(id) => any_has_attrs(db, id),
AttrDefId::TypeAliasId(id) => any_has_attrs(db, id),
AttrDefId::MacroId(id) => match id {
MacroId::Macro2Id(id) => any_has_attrs(db, id),
MacroId::MacroRulesId(id) => any_has_attrs(db, id),
MacroId::ProcMacroId(id) => any_has_attrs(db, id),
},
AttrDefId::ImplId(id) => any_has_attrs(db, id),
AttrDefId::GenericParamId(id) => match id {
GenericParamId::ConstParamId(id) => id
.parent()
.child_source(db)
.map(|source| ast::AnyHasAttrs::new(source[id.local_id()].clone())),
GenericParamId::TypeParamId(id) => id
.parent()
.child_source(db)
.map(|source| ast::AnyHasAttrs::new(source[id.local_id()].clone())),
GenericParamId::LifetimeParamId(id) => id
.parent
.child_source(db)
.map(|source| ast::AnyHasAttrs::new(source[id.local_id].clone())),
},
AttrDefId::ExternBlockId(id) => any_has_attrs(db, id),
AttrDefId::ExternCrateId(id) => any_has_attrs(db, id),
AttrDefId::UseId(id) => any_has_attrs(db, id),
};
AttrSourceMap::new(owner.as_ref().map(|node| node as &dyn HasAttrs))
}
}
#[derive(Debug)]
pub struct AttrSourceMap {
source: Vec<Either<ast::Attr, ast::Comment>>,
file_id: HirFileId,
/// If this map is for a module, this will be the [`HirFileId`] of the module's definition site,
/// while `file_id` will be the one of the module declaration site.
/// The usize is the index into `source` from which point on the entries reside in the def site
/// file.
mod_def_site_file_id: Option<(HirFileId, usize)>,
}
impl AttrSourceMap {
fn new(owner: InFile<&dyn ast::HasAttrs>) -> Self {
Self {
source: collect_attrs(owner.value).map(|(_, it)| it).collect(),
file_id: owner.file_id,
mod_def_site_file_id: None,
}
}
/// Append a second source map to this one, this is required for modules, whose outline and inline
/// attributes can reside in different files
fn append_module_inline_attrs(&mut self, other: Self) {
assert!(self.mod_def_site_file_id.is_none() && other.mod_def_site_file_id.is_none());
let len = self.source.len();
self.source.extend(other.source);
if other.file_id != self.file_id {
self.mod_def_site_file_id = Some((other.file_id, len));
}
}
/// Maps the lowered `Attr` back to its original syntax node.
///
/// `attr` must come from the `owner` used for AttrSourceMap
///
/// Note that the returned syntax node might be a `#[cfg_attr]`, or a doc comment, instead of
/// the attribute represented by `Attr`.
pub fn source_of(&self, attr: &Attr) -> InFile<&Either<ast::Attr, ast::Comment>> {
self.source_of_id(attr.id)
}
pub fn source_of_id(&self, id: AttrId) -> InFile<&Either<ast::Attr, ast::Comment>> {
let ast_idx = id.ast_index();
let file_id = match self.mod_def_site_file_id {
Some((file_id, def_site_cut)) if def_site_cut <= ast_idx => file_id,
_ => self.file_id,
};
self.source
.get(ast_idx)
.map(|it| InFile::new(file_id, it))
.unwrap_or_else(|| panic!("cannot find attr at index {id:?}"))
}
}
#[derive(Debug, Clone, Copy)]
pub struct AttrQuery<'attr> {
attrs: &'attr Attrs,
key: &'attr Symbol,
}
impl<'attr> AttrQuery<'attr> {
pub fn tt_values(self) -> impl Iterator<Item = &'attr crate::tt::Subtree> {
self.attrs().filter_map(|attr| attr.token_tree_value())
}
pub fn string_value(self) -> Option<&'attr Symbol> {
self.attrs().find_map(|attr| attr.string_value())
}
pub fn string_value_with_span(self) -> Option<(&'attr Symbol, span::Span)> {
self.attrs().find_map(|attr| attr.string_value_with_span())
}
pub fn string_value_unescape(self) -> Option<Cow<'attr, str>> {
self.attrs().find_map(|attr| attr.string_value_unescape())
}
pub fn exists(self) -> bool {
self.attrs().next().is_some()
}
pub fn attrs(self) -> impl Iterator<Item = &'attr Attr> + Clone {
let key = self.key;
self.attrs.iter().filter(move |attr| attr.path.as_ident().map_or(false, |s| *s == *key))
}
/// Find string value for a specific key inside token tree
///
/// ```ignore
/// #[doc(html_root_url = "url")]
/// ^^^^^^^^^^^^^ key
/// ```
pub fn find_string_value_in_tt(self, key: &'attr Symbol) -> Option<&str> {
self.tt_values().find_map(|tt| {
let name = tt.token_trees.iter()
.skip_while(|tt| !matches!(tt, tt::TokenTree::Leaf(tt::Leaf::Ident(tt::Ident { sym, ..} )) if *sym == *key))
.nth(2);
match name {
Some(tt::TokenTree::Leaf(tt::Leaf::Literal(tt::Literal{ symbol: text, kind: tt::LitKind::Str | tt::LitKind::StrRaw(_) , ..}))) => Some(text.as_str()),
_ => None
}
})
}
}
fn any_has_attrs<'db>(
db: &(dyn DefDatabase + 'db),
id: impl Lookup<
Database<'db> = dyn DefDatabase + 'db,
Data = impl HasSource<Value = impl ast::HasAttrs>,
>,
) -> InFile<ast::AnyHasAttrs> {
id.lookup(db).source(db).map(ast::AnyHasAttrs::new)
}
fn attrs_from_item_tree_loc<'db, N: ItemTreeNode>(
db: &(dyn DefDatabase + 'db),
lookup: impl Lookup<Database<'db> = dyn DefDatabase + 'db, Data = impl ItemTreeLoc<Id = N>>,
) -> RawAttrs {
let id = lookup.lookup(db).item_tree_id();
let tree = id.item_tree(db);
let attr_owner = N::attr_owner(id.value);
tree.raw_attrs(attr_owner).clone()
}
pub(crate) fn fields_attrs_source_map(
db: &dyn DefDatabase,
def: VariantId,
) -> Arc<ArenaMap<LocalFieldId, AstPtr<Either<ast::TupleField, ast::RecordField>>>> {
let mut res = ArenaMap::default();
let child_source = def.child_source(db);
for (idx, variant) in child_source.value.iter() {
res.insert(
idx,
variant
.as_ref()
.either(|l| AstPtr::new(l).wrap_left(), |r| AstPtr::new(r).wrap_right()),
);
}
Arc::new(res)
}
#[cfg(test)]
mod tests {
//! This module contains tests for doc-expression parsing.
//! Currently, it tests `#[doc(hidden)]` and `#[doc(alias)]`.
use intern::Symbol;
use span::EditionedFileId;
use triomphe::Arc;
use hir_expand::span_map::{RealSpanMap, SpanMap};
use span::FileId;
use syntax::{ast, AstNode, TextRange};
use syntax_bridge::{syntax_node_to_token_tree, DocCommentDesugarMode};
use crate::attr::{DocAtom, DocExpr};
fn assert_parse_result(input: &str, expected: DocExpr) {
let source_file = ast::SourceFile::parse(input, span::Edition::CURRENT).ok().unwrap();
let tt = source_file.syntax().descendants().find_map(ast::TokenTree::cast).unwrap();
let map = SpanMap::RealSpanMap(Arc::new(RealSpanMap::absolute(
EditionedFileId::current_edition(FileId::from_raw(0)),
)));
let tt = syntax_node_to_token_tree(
tt.syntax(),
map.as_ref(),
map.span_for_range(TextRange::empty(0.into())),
DocCommentDesugarMode::ProcMacro,
);
let cfg = DocExpr::parse(&tt);
assert_eq!(cfg, expected);
}
#[test]
fn test_doc_expr_parser() {
assert_parse_result("#![doc(hidden)]", DocAtom::Flag(Symbol::intern("hidden")).into());
assert_parse_result(
r#"#![doc(alias = "foo")]"#,
DocAtom::KeyValue { key: Symbol::intern("alias"), value: Symbol::intern("foo") }.into(),
);
assert_parse_result(
r#"#![doc(alias("foo"))]"#,
DocExpr::Alias([Symbol::intern("foo")].into()),
);
assert_parse_result(
r#"#![doc(alias("foo", "bar", "baz"))]"#,
DocExpr::Alias(
[Symbol::intern("foo"), Symbol::intern("bar"), Symbol::intern("baz")].into(),
),
);
assert_parse_result(
r#"
#[doc(alias("Bar", "Qux"))]
struct Foo;"#,
DocExpr::Alias([Symbol::intern("Bar"), Symbol::intern("Qux")].into()),
);
}
}