2466: Handle partial resolve cases r=matklad a=edwin0cheng

Another try to fix #2443 :

We resolve all imports every time in `DefCollector::collect` loop even it is resolved previously.  
This is because other unresolved imports and macros will bring in another `PerNs`, so we can only assume that it has been partially resolved.

Co-authored-by: Edwin Cheng <edwin0cheng@gmail.com>
This commit is contained in:
bors[bot] 2019-12-08 10:44:30 +00:00 committed by GitHub
commit b236f6aa49
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4 changed files with 194 additions and 44 deletions

View file

@ -58,6 +58,8 @@ pub(super) fn collect_defs(db: &impl DefDatabase, mut def_map: CrateDefMap) -> C
def_map, def_map,
glob_imports: FxHashMap::default(), glob_imports: FxHashMap::default(),
unresolved_imports: Vec::new(), unresolved_imports: Vec::new(),
resolved_imports: Vec::new(),
unexpanded_macros: Vec::new(), unexpanded_macros: Vec::new(),
unexpanded_attribute_macros: Vec::new(), unexpanded_attribute_macros: Vec::new(),
mod_dirs: FxHashMap::default(), mod_dirs: FxHashMap::default(),
@ -97,12 +99,41 @@ impl MacroStackMonitor {
} }
} }
#[derive(Copy, Clone, Debug, Eq, PartialEq)]
enum PartialResolvedImport {
/// None of any namespaces is resolved
Unresolved,
/// One of namespaces is resolved
Indeterminate(PerNs),
/// All namespaces are resolved, OR it is came from other crate
Resolved(PerNs),
}
impl PartialResolvedImport {
fn namespaces(&self) -> PerNs {
match self {
PartialResolvedImport::Unresolved => PerNs::none(),
PartialResolvedImport::Indeterminate(ns) => *ns,
PartialResolvedImport::Resolved(ns) => *ns,
}
}
}
#[derive(Clone, Debug, Eq, PartialEq)]
struct ImportDirective {
module_id: LocalModuleId,
import_id: LocalImportId,
import: raw::ImportData,
status: PartialResolvedImport,
}
/// Walks the tree of module recursively /// Walks the tree of module recursively
struct DefCollector<'a, DB> { struct DefCollector<'a, DB> {
db: &'a DB, db: &'a DB,
def_map: CrateDefMap, def_map: CrateDefMap,
glob_imports: FxHashMap<LocalModuleId, Vec<(LocalModuleId, LocalImportId)>>, glob_imports: FxHashMap<LocalModuleId, Vec<(LocalModuleId, LocalImportId)>>,
unresolved_imports: Vec<(LocalModuleId, LocalImportId, raw::ImportData)>, unresolved_imports: Vec<ImportDirective>,
resolved_imports: Vec<ImportDirective>,
unexpanded_macros: Vec<(LocalModuleId, AstId<ast::MacroCall>, Path)>, unexpanded_macros: Vec<(LocalModuleId, AstId<ast::MacroCall>, Path)>,
unexpanded_attribute_macros: Vec<(LocalModuleId, AstId<ast::ModuleItem>, Path)>, unexpanded_attribute_macros: Vec<(LocalModuleId, AstId<ast::ModuleItem>, Path)>,
mod_dirs: FxHashMap<LocalModuleId, ModDir>, mod_dirs: FxHashMap<LocalModuleId, ModDir>,
@ -148,9 +179,11 @@ where
let mut i = 0; let mut i = 0;
loop { loop {
self.db.check_canceled(); self.db.check_canceled();
match (self.resolve_imports(), self.resolve_macros()) { self.resolve_imports();
(ReachedFixedPoint::Yes, ReachedFixedPoint::Yes) => break,
_ => i += 1, match self.resolve_macros() {
ReachedFixedPoint::Yes => break,
ReachedFixedPoint::No => i += 1,
} }
if i == 1000 { if i == 1000 {
log::error!("name resolution is stuck"); log::error!("name resolution is stuck");
@ -158,10 +191,26 @@ where
} }
} }
// Resolve all indeterminate resolved imports again
// As some of the macros will expand newly import shadowing partial resolved imports
// FIXME: We maybe could skip this, if we handle the Indetermine imports in `resolve_imports`
// correctly
let partial_resolved = self.resolved_imports.iter().filter_map(|directive| {
if let PartialResolvedImport::Indeterminate(_) = directive.status {
let mut directive = directive.clone();
directive.status = PartialResolvedImport::Unresolved;
Some(directive)
} else {
None
}
});
self.unresolved_imports.extend(partial_resolved);
self.resolve_imports();
let unresolved_imports = std::mem::replace(&mut self.unresolved_imports, Vec::new()); let unresolved_imports = std::mem::replace(&mut self.unresolved_imports, Vec::new());
// show unresolved imports in completion, etc // show unresolved imports in completion, etc
for (module_id, import, import_data) in unresolved_imports { for directive in unresolved_imports {
self.record_resolved_import(module_id, PerNs::none(), import, &import_data) self.record_resolved_import(&directive)
} }
} }
@ -262,31 +311,43 @@ where
} }
} }
fn resolve_imports(&mut self) -> ReachedFixedPoint { /// Import resolution
let mut imports = std::mem::replace(&mut self.unresolved_imports, Vec::new()); ///
let mut resolved = Vec::new(); /// This is a fix point algorithm. We resolve imports until no forward
imports.retain(|(module_id, import, import_data)| { /// progress in resolving imports is made
let (def, fp) = self.resolve_import(*module_id, import_data); fn resolve_imports(&mut self) {
if fp == ReachedFixedPoint::Yes { let mut n_previous_unresolved = self.unresolved_imports.len() + 1;
resolved.push((*module_id, def, *import, import_data.clone()))
while self.unresolved_imports.len() < n_previous_unresolved {
n_previous_unresolved = self.unresolved_imports.len();
let imports = std::mem::replace(&mut self.unresolved_imports, Vec::new());
for mut directive in imports {
directive.status = self.resolve_import(directive.module_id, &directive.import);
match directive.status {
PartialResolvedImport::Indeterminate(_) => {
self.record_resolved_import(&directive);
// FIXME: For avoid performance regression,
// we consider an imported resolved if it is indeterminate (i.e not all namespace resolved)
self.resolved_imports.push(directive)
}
PartialResolvedImport::Resolved(_) => {
self.record_resolved_import(&directive);
self.resolved_imports.push(directive)
}
PartialResolvedImport::Unresolved => {
self.unresolved_imports.push(directive);
}
}
} }
fp == ReachedFixedPoint::No
});
self.unresolved_imports = imports;
// Resolves imports, filling-in module scopes
let result =
if resolved.is_empty() { ReachedFixedPoint::Yes } else { ReachedFixedPoint::No };
for (module_id, def, import, import_data) in resolved {
self.record_resolved_import(module_id, def, import, &import_data)
} }
result
} }
fn resolve_import( fn resolve_import(
&self, &self,
module_id: LocalModuleId, module_id: LocalModuleId,
import: &raw::ImportData, import: &raw::ImportData,
) -> (PerNs, ReachedFixedPoint) { ) -> PartialResolvedImport {
log::debug!("resolving import: {:?} ({:?})", import, self.def_map.edition); log::debug!("resolving import: {:?} ({:?})", import, self.def_map.edition);
if import.is_extern_crate { if import.is_extern_crate {
let res = self.def_map.resolve_name_in_extern_prelude( let res = self.def_map.resolve_name_in_extern_prelude(
@ -295,7 +356,7 @@ where
.as_ident() .as_ident()
.expect("extern crate should have been desugared to one-element path"), .expect("extern crate should have been desugared to one-element path"),
); );
(res, ReachedFixedPoint::Yes) PartialResolvedImport::Resolved(res)
} else { } else {
let res = self.def_map.resolve_path_fp_with_macro( let res = self.def_map.resolve_path_fp_with_macro(
self.db, self.db,
@ -305,17 +366,35 @@ where
BuiltinShadowMode::Module, BuiltinShadowMode::Module,
); );
(res.resolved_def, res.reached_fixedpoint) let def = res.resolved_def;
if res.reached_fixedpoint == ReachedFixedPoint::No {
return PartialResolvedImport::Unresolved;
}
if let Some(krate) = res.krate {
if krate != self.def_map.krate {
return PartialResolvedImport::Resolved(def);
} }
} }
fn record_resolved_import( // Check whether all namespace is resolved
&mut self, if def.take_types().is_some()
module_id: LocalModuleId, && def.take_values().is_some()
def: PerNs, && def.take_macros().is_some()
import_id: LocalImportId, {
import: &raw::ImportData, PartialResolvedImport::Resolved(def)
) { } else {
PartialResolvedImport::Indeterminate(def)
}
}
}
fn record_resolved_import(&mut self, directive: &ImportDirective) {
let module_id = directive.module_id;
let import_id = directive.import_id;
let import = &directive.import;
let def = directive.status.namespaces();
if import.is_glob { if import.is_glob {
log::debug!("glob import: {:?}", import); log::debug!("glob import: {:?}", import);
match def.take_types() { match def.take_types() {
@ -352,10 +431,10 @@ where
self.update(module_id, Some(import_id), &items); self.update(module_id, Some(import_id), &items);
// record the glob import in case we add further items // record the glob import in case we add further items
self.glob_imports let glob = self.glob_imports.entry(m.local_id).or_default();
.entry(m.local_id) if !glob.iter().any(|it| *it == (module_id, import_id)) {
.or_default() glob.push((module_id, import_id));
.push((module_id, import_id)); }
} }
} }
Some(ModuleDefId::AdtId(AdtId::EnumId(e))) => { Some(ModuleDefId::AdtId(AdtId::EnumId(e))) => {
@ -615,10 +694,14 @@ where
raw::RawItemKind::Module(m) => { raw::RawItemKind::Module(m) => {
self.collect_module(&self.raw_items[m], &item.attrs) self.collect_module(&self.raw_items[m], &item.attrs)
} }
raw::RawItemKind::Import(import_id) => self raw::RawItemKind::Import(import_id) => {
.def_collector self.def_collector.unresolved_imports.push(ImportDirective {
.unresolved_imports module_id: self.module_id,
.push((self.module_id, import_id, self.raw_items[import_id].clone())), import_id,
import: self.raw_items[import_id].clone(),
status: PartialResolvedImport::Unresolved,
})
}
raw::RawItemKind::Def(def) => { raw::RawItemKind::Def(def) => {
self.define_def(&self.raw_items[def], &item.attrs) self.define_def(&self.raw_items[def], &item.attrs)
} }
@ -886,6 +969,7 @@ mod tests {
def_map, def_map,
glob_imports: FxHashMap::default(), glob_imports: FxHashMap::default(),
unresolved_imports: Vec::new(), unresolved_imports: Vec::new(),
resolved_imports: Vec::new(),
unexpanded_macros: Vec::new(), unexpanded_macros: Vec::new(),
unexpanded_attribute_macros: Vec::new(), unexpanded_attribute_macros: Vec::new(),
mod_dirs: FxHashMap::default(), mod_dirs: FxHashMap::default(),

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@ -19,7 +19,7 @@ use crate::{
nameres::{BuiltinShadowMode, CrateDefMap}, nameres::{BuiltinShadowMode, CrateDefMap},
path::{Path, PathKind}, path::{Path, PathKind},
per_ns::PerNs, per_ns::PerNs,
AdtId, EnumVariantId, LocalModuleId, ModuleDefId, ModuleId, AdtId, CrateId, EnumVariantId, LocalModuleId, ModuleDefId, ModuleId,
}; };
#[derive(Debug, Clone, Copy, PartialEq, Eq)] #[derive(Debug, Clone, Copy, PartialEq, Eq)]
@ -39,19 +39,21 @@ pub(super) struct ResolvePathResult {
pub(super) resolved_def: PerNs, pub(super) resolved_def: PerNs,
pub(super) segment_index: Option<usize>, pub(super) segment_index: Option<usize>,
pub(super) reached_fixedpoint: ReachedFixedPoint, pub(super) reached_fixedpoint: ReachedFixedPoint,
pub(super) krate: Option<CrateId>,
} }
impl ResolvePathResult { impl ResolvePathResult {
fn empty(reached_fixedpoint: ReachedFixedPoint) -> ResolvePathResult { fn empty(reached_fixedpoint: ReachedFixedPoint) -> ResolvePathResult {
ResolvePathResult::with(PerNs::none(), reached_fixedpoint, None) ResolvePathResult::with(PerNs::none(), reached_fixedpoint, None, None)
} }
fn with( fn with(
resolved_def: PerNs, resolved_def: PerNs,
reached_fixedpoint: ReachedFixedPoint, reached_fixedpoint: ReachedFixedPoint,
segment_index: Option<usize>, segment_index: Option<usize>,
krate: Option<CrateId>,
) -> ResolvePathResult { ) -> ResolvePathResult {
ResolvePathResult { resolved_def, reached_fixedpoint, segment_index } ResolvePathResult { resolved_def, reached_fixedpoint, segment_index, krate }
} }
} }
@ -175,6 +177,7 @@ impl CrateDefMap {
def, def,
ReachedFixedPoint::Yes, ReachedFixedPoint::Yes,
s.map(|s| s + i), s.map(|s| s + i),
Some(module.krate),
); );
} }
@ -201,6 +204,7 @@ impl CrateDefMap {
PerNs::types(e.into()), PerNs::types(e.into()),
ReachedFixedPoint::Yes, ReachedFixedPoint::Yes,
Some(i), Some(i),
Some(self.krate),
); );
} }
} }
@ -218,12 +222,13 @@ impl CrateDefMap {
PerNs::types(s), PerNs::types(s),
ReachedFixedPoint::Yes, ReachedFixedPoint::Yes,
Some(i), Some(i),
Some(self.krate),
); );
} }
}; };
} }
ResolvePathResult::with(curr_per_ns, ReachedFixedPoint::Yes, None) ResolvePathResult::with(curr_per_ns, ReachedFixedPoint::Yes, None, Some(self.krate))
} }
fn resolve_name_in_module( fn resolve_name_in_module(

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@ -558,3 +558,35 @@ fn cfg_test() {
Foo: t v Foo: t v
"###); "###);
} }
#[test]
fn infer_multiple_namespace() {
let map = def_map(
r#"
//- /main.rs
mod a {
pub type T = ();
pub use crate::b::*;
}
use crate::a::T;
mod b {
pub const T: () = ();
}
"#,
);
assert_snapshot!(map, @r###"
crate
T: t v
a: t
b: t
crate::b
T: v
crate::a
T: t v
"###);
}

View file

@ -210,6 +210,35 @@ pub fn baz() -> usize { 31usize }
assert_eq!("(i32, usize)", type_at_pos(&db, pos)); assert_eq!("(i32, usize)", type_at_pos(&db, pos));
} }
#[test]
fn infer_type_value_non_legacy_macro_use_as() {
assert_snapshot!(
infer(r#"
mod m {
macro_rules! _foo {
($x:ident) => { type $x = u64; }
}
pub(crate) use _foo as foo;
}
m::foo!(foo);
use foo as bar;
fn f() -> bar { 0 }
fn main() {
let _a = f();
}
"#),
@r###"
[159; 164) '{ 0 }': u64
[161; 162) '0': u64
[175; 199) '{ ...f(); }': ()
[187; 189) '_a': u64
[193; 194) 'f': fn f() -> u64
[193; 196) 'f()': u64
"###
);
}
#[test] #[test]
fn infer_builtin_macros_line() { fn infer_builtin_macros_line() {
assert_snapshot!( assert_snapshot!(