rust/crates/ra_hir/src/resolve.rs

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//! Name resolution.
use std::sync::Arc;
use rustc_hash::{FxHashMap, FxHashSet};
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use crate::{
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code_model::Crate,
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db::HirDatabase,
expr::{
scope::{ExprScopes, ScopeId},
PatId,
},
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generics::GenericParams,
impl_block::ImplBlock,
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name::{Name, SELF_PARAM, SELF_TYPE},
nameres::{CrateDefMap, CrateModuleId, PerNs},
path::Path,
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Adt, Enum, MacroDef, ModuleDef, Struct, Trait,
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};
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#[derive(Debug, Clone, Default)]
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pub(crate) struct Resolver {
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scopes: Vec<Scope>,
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}
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// FIXME how to store these best
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#[derive(Debug, Clone)]
pub(crate) struct ModuleItemMap {
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crate_def_map: Arc<CrateDefMap>,
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module_id: CrateModuleId,
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}
#[derive(Debug, Clone)]
pub(crate) struct ExprScope {
expr_scopes: Arc<ExprScopes>,
scope_id: ScopeId,
}
#[derive(Debug, Clone)]
pub(crate) struct PathResult {
/// The actual path resolution
// FIXME: `PerNs<Resolution>` type doesn't make sense, as not every
// Resolution variant can appear in every namespace
resolution: PerNs<Resolution>,
/// The first index in the path that we
/// were unable to resolve.
/// When path is fully resolved, this is 0.
remaining_index: usize,
}
impl PathResult {
/// Returns the remaining index in the result
/// returns None if the path was fully resolved
pub(crate) fn remaining_index(&self) -> Option<usize> {
if self.remaining_index > 0 {
Some(self.remaining_index)
} else {
None
}
}
/// Consumes `PathResult` and returns the contained `PerNs<Resolution>`
/// if the path was fully resolved, meaning we have no remaining items
pub(crate) fn into_fully_resolved(self) -> PerNs<Resolution> {
if self.is_fully_resolved() {
self.resolution
} else {
PerNs::none()
}
}
/// Consumes `PathResult` and returns the resolution and the
/// remaining_index as a tuple.
pub(crate) fn into_inner(self) -> (PerNs<Resolution>, Option<usize>) {
let index = self.remaining_index();
(self.resolution, index)
}
/// Path is fully resolved when `remaining_index` is none
/// and the resolution contains anything
pub(crate) fn is_fully_resolved(&self) -> bool {
!self.resolution.is_none() && self.remaining_index().is_none()
}
fn empty() -> PathResult {
PathResult { resolution: PerNs::none(), remaining_index: 0 }
}
fn from_resolution(res: PerNs<Resolution>) -> PathResult {
PathResult::from_resolution_with_index(res, 0)
}
fn from_resolution_with_index(res: PerNs<Resolution>, remaining_index: usize) -> PathResult {
if res.is_none() {
PathResult::empty()
} else {
PathResult { resolution: res, remaining_index }
}
}
}
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#[derive(Debug, Clone)]
pub(crate) enum Scope {
/// All the items and imported names of a module
ModuleScope(ModuleItemMap),
/// Brings the generic parameters of an item into scope
GenericParams(Arc<GenericParams>),
/// Brings `Self` into scope
ImplBlockScope(ImplBlock),
/// Local bindings
ExprScope(ExprScope),
}
#[derive(Debug, Clone, PartialEq, Eq)]
pub enum Resolution {
/// An item
Def(ModuleDef),
// FIXME: there's no way we can syntactically confuse a local with generic
// param, so these two should not be members of the single enum
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/// A local binding (only value namespace)
LocalBinding(PatId),
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/// A generic parameter
GenericParam(u32),
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SelfType(ImplBlock),
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}
impl Resolver {
/// Resolve known trait from std, like `std::futures::Future`
pub(crate) fn resolve_known_trait(&self, db: &impl HirDatabase, path: &Path) -> Option<Trait> {
let res = self.resolve_path_segments(db, path).into_fully_resolved().take_types()?;
match res {
Resolution::Def(ModuleDef::Trait(it)) => Some(it),
_ => None,
}
}
/// Resolve known struct from std, like `std::boxed::Box`
pub(crate) fn resolve_known_struct(
&self,
db: &impl HirDatabase,
path: &Path,
) -> Option<Struct> {
let res = self.resolve_path_segments(db, path).into_fully_resolved().take_types()?;
match res {
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Resolution::Def(ModuleDef::Adt(Adt::Struct(it))) => Some(it),
_ => None,
}
}
/// Resolve known enum from std, like `std::result::Result`
pub(crate) fn resolve_known_enum(&self, db: &impl HirDatabase, path: &Path) -> Option<Enum> {
let res = self.resolve_path_segments(db, path).into_fully_resolved().take_types()?;
match res {
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Resolution::Def(ModuleDef::Adt(Adt::Enum(it))) => Some(it),
_ => None,
}
}
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pub(crate) fn resolve_name(&self, db: &impl HirDatabase, name: &Name) -> PerNs<Resolution> {
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let mut resolution = PerNs::none();
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for scope in self.scopes.iter().rev() {
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resolution = resolution.or(scope.resolve_name(db, name));
if resolution.is_all() {
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return resolution;
}
}
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resolution
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}
pub(crate) fn resolve_path_as_macro(
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&self,
db: &impl HirDatabase,
path: &Path,
) -> Option<MacroDef> {
let (item_map, module) = self.module()?;
item_map.resolve_path(db, module, path).0.get_macros()
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}
/// Returns the resolved path segments
/// Which may be fully resolved, empty or partially resolved.
pub(crate) fn resolve_path_segments(&self, db: &impl HirDatabase, path: &Path) -> PathResult {
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if let Some(name) = path.as_ident() {
PathResult::from_resolution(self.resolve_name(db, name))
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} else if path.is_self() {
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PathResult::from_resolution(self.resolve_name(db, &SELF_PARAM))
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} else {
let (item_map, module) = match self.module() {
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Some(it) => it,
None => return PathResult::empty(),
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};
let (module_res, segment_index) = item_map.resolve_path(db, module, path);
let def = module_res.map(Resolution::Def);
if let Some(index) = segment_index {
PathResult::from_resolution_with_index(def, index)
} else {
PathResult::from_resolution(def)
}
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}
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}
/// Returns the fully resolved path if we were able to resolve it.
/// otherwise returns `PerNs::none`
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pub(crate) fn resolve_path_without_assoc_items(
&self,
db: &impl HirDatabase,
path: &Path,
) -> PerNs<Resolution> {
// into_fully_resolved() returns the fully resolved path or PerNs::none() otherwise
self.resolve_path_segments(db, path).into_fully_resolved()
}
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pub(crate) fn all_names(&self, db: &impl HirDatabase) -> FxHashMap<Name, PerNs<Resolution>> {
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let mut names = FxHashMap::default();
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for scope in self.scopes.iter().rev() {
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scope.collect_names(db, &mut |name, res| {
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let current: &mut PerNs<Resolution> = names.entry(name).or_default();
if current.types.is_none() {
current.types = res.types;
}
if current.values.is_none() {
current.values = res.values;
}
if current.macros.is_none() {
current.macros = res.macros;
}
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});
}
names
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}
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pub(crate) fn traits_in_scope(&self, db: &impl HirDatabase) -> FxHashSet<Trait> {
let mut traits = FxHashSet::default();
for scope in &self.scopes {
if let Scope::ModuleScope(m) = scope {
if let Some(prelude) = m.crate_def_map.prelude() {
let prelude_def_map = db.crate_def_map(prelude.krate);
traits.extend(prelude_def_map[prelude.module_id].scope.traits());
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}
traits.extend(m.crate_def_map[m.module_id].scope.traits());
}
}
traits
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}
fn module(&self) -> Option<(&CrateDefMap, CrateModuleId)> {
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self.scopes.iter().rev().find_map(|scope| match scope {
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Scope::ModuleScope(m) => Some((&*m.crate_def_map, m.module_id)),
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_ => None,
})
}
pub(crate) fn krate(&self) -> Option<Crate> {
self.module().map(|t| t.0.krate())
}
pub(crate) fn where_predicates_in_scope<'a>(
&'a self,
) -> impl Iterator<Item = &'a crate::generics::WherePredicate> + 'a {
self.scopes
.iter()
.filter_map(|scope| match scope {
Scope::GenericParams(params) => Some(params),
_ => None,
})
.flat_map(|params| params.where_predicates.iter())
}
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}
impl Resolver {
pub(crate) fn push_scope(mut self, scope: Scope) -> Resolver {
self.scopes.push(scope);
self
}
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pub(crate) fn push_generic_params_scope(self, params: Arc<GenericParams>) -> Resolver {
self.push_scope(Scope::GenericParams(params))
}
pub(crate) fn push_impl_block_scope(self, impl_block: ImplBlock) -> Resolver {
self.push_scope(Scope::ImplBlockScope(impl_block))
}
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pub(crate) fn push_module_scope(
self,
crate_def_map: Arc<CrateDefMap>,
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module_id: CrateModuleId,
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) -> Resolver {
self.push_scope(Scope::ModuleScope(ModuleItemMap { crate_def_map, module_id }))
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}
pub(crate) fn push_expr_scope(
self,
expr_scopes: Arc<ExprScopes>,
scope_id: ScopeId,
) -> Resolver {
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self.push_scope(Scope::ExprScope(ExprScope { expr_scopes, scope_id }))
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}
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}
impl Scope {
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fn resolve_name(&self, db: &impl HirDatabase, name: &Name) -> PerNs<Resolution> {
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match self {
Scope::ModuleScope(m) => {
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if name == &SELF_PARAM {
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PerNs::types(Resolution::Def(m.crate_def_map.mk_module(m.module_id).into()))
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} else {
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m.crate_def_map
.resolve_name_in_module(db, m.module_id, name)
.map(Resolution::Def)
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}
}
Scope::GenericParams(gp) => match gp.find_by_name(name) {
Some(gp) => PerNs::types(Resolution::GenericParam(gp.idx)),
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None => PerNs::none(),
},
Scope::ImplBlockScope(i) => {
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if name == &SELF_TYPE {
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PerNs::types(Resolution::SelfType(*i))
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} else {
PerNs::none()
}
}
Scope::ExprScope(e) => {
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let entry =
e.expr_scopes.entries(e.scope_id).iter().find(|entry| entry.name() == name);
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match entry {
Some(e) => PerNs::values(Resolution::LocalBinding(e.pat())),
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None => PerNs::none(),
}
}
}
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}
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fn collect_names(&self, db: &impl HirDatabase, f: &mut dyn FnMut(Name, PerNs<Resolution>)) {
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match self {
Scope::ModuleScope(m) => {
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// FIXME: should we provide `self` here?
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// f(
// Name::self_param(),
// PerNs::types(Resolution::Def {
// def: m.module.into(),
// }),
// );
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m.crate_def_map[m.module_id].scope.entries().for_each(|(name, res)| {
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f(name.clone(), res.def.map(Resolution::Def));
});
m.crate_def_map[m.module_id].scope.legacy_macros().for_each(|(name, macro_)| {
f(name.clone(), PerNs::macros(macro_));
});
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m.crate_def_map.extern_prelude().iter().for_each(|(name, def)| {
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f(name.clone(), PerNs::types(Resolution::Def(*def)));
});
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if let Some(prelude) = m.crate_def_map.prelude() {
let prelude_def_map = db.crate_def_map(prelude.krate);
prelude_def_map[prelude.module_id].scope.entries().for_each(|(name, res)| {
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f(name.clone(), res.def.map(Resolution::Def));
});
}
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}
Scope::GenericParams(gp) => {
for param in &gp.params {
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f(param.name.clone(), PerNs::types(Resolution::GenericParam(param.idx)))
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}
}
Scope::ImplBlockScope(i) => {
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f(SELF_TYPE, PerNs::types(Resolution::SelfType(*i)));
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}
Scope::ExprScope(e) => {
e.expr_scopes.entries(e.scope_id).iter().for_each(|e| {
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f(e.name().clone(), PerNs::values(Resolution::LocalBinding(e.pat())));
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});
}
}
}
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}