//! Look up accessible paths for items.
use hir::{
AsAssocItem, AssocItem, AssocItemContainer, Crate, ItemInNs, MacroDef, ModPath, Module,
ModuleDef, PathResolution, PrefixKind, ScopeDef, Semantics, Type,
};
use itertools::Itertools;
use rustc_hash::FxHashSet;
use syntax::{ast, utils::path_to_string_stripping_turbo_fish, AstNode, SyntaxNode};
use crate::{
items_locator::{self, AssocItemSearch, DEFAULT_QUERY_SEARCH_LIMIT},
RootDatabase,
};
use super::item_name;
/// A candidate for import, derived during various IDE activities:
/// * completion with imports on the fly proposals
/// * completion edit resolve requests
/// * assists
/// * etc.
#[derive(Debug)]
pub enum ImportCandidate {
/// A path, qualified (`std::collections::HashMap`) or not (`HashMap`).
Path(PathImportCandidate),
/// A trait associated function (with no self parameter) or an associated constant.
/// For 'test_mod::TestEnum::test_function', `ty` is the `test_mod::TestEnum` expression type
/// and `name` is the `test_function`
TraitAssocItem(TraitImportCandidate),
/// A trait method with self parameter.
/// For 'test_enum.test_method()', `ty` is the `test_enum` expression type
/// and `name` is the `test_method`
TraitMethod(TraitImportCandidate),
}
/// A trait import needed for a given associated item access.
/// For `some::path::SomeStruct::ASSOC_`, contains the
/// type of `some::path::SomeStruct` and `ASSOC_` as the item name.
#[derive(Debug)]
pub struct TraitImportCandidate {
/// A type of the item that has the associated item accessed at.
pub receiver_ty: Type,
/// The associated item name that the trait to import should contain.
pub assoc_item_name: NameToImport,
}
/// Path import for a given name, qualified or not.
#[derive(Debug)]
pub struct PathImportCandidate {
/// Optional qualifier before name.
pub qualifier: Option<FirstSegmentUnresolved>,
/// The name the item (struct, trait, enum, etc.) should have.
pub name: NameToImport,
}
/// A qualifier that has a first segment and it's unresolved.
#[derive(Debug)]
pub struct FirstSegmentUnresolved {
fist_segment: ast::NameRef,
full_qualifier: ast::Path,
}
/// A name that will be used during item lookups.
#[derive(Debug, Clone)]
pub enum NameToImport {
/// Requires items with names that exactly match the given string, case-sensitive.
Exact(String),
/// Requires items with names that case-insensitively contain all letters from the string,
/// in the same order, but not necessary adjacent.
Fuzzy(String),
}
impl NameToImport {
pub fn text(&self) -> &str {
match self {
NameToImport::Exact(text) => text.as_str(),
NameToImport::Fuzzy(text) => text.as_str(),
}
}
}
/// A struct to find imports in the project, given a certain name (or its part) and the context.
#[derive(Debug)]
pub struct ImportAssets {
import_candidate: ImportCandidate,
candidate_node: SyntaxNode,
module_with_candidate: Module,
}
impl ImportAssets {
pub fn for_method_call(
method_call: &ast::MethodCallExpr,
sema: &Semantics<RootDatabase>,
) -> Option<Self> {
let candidate_node = method_call.syntax().clone();
Some(Self {
import_candidate: ImportCandidate::for_method_call(sema, method_call)?,
module_with_candidate: sema.scope(&candidate_node).module()?,
candidate_node,
})
}
pub fn for_exact_path(
fully_qualified_path: &ast::Path,
sema: &Semantics<RootDatabase>,
) -> Option<Self> {
let candidate_node = fully_qualified_path.syntax().clone();
if candidate_node.ancestors().find_map(ast::Use::cast).is_some() {
return None;
}
Some(Self {
import_candidate: ImportCandidate::for_regular_path(sema, fully_qualified_path)?,
module_with_candidate: sema.scope(&candidate_node).module()?,
candidate_node,
})
}
pub fn for_fuzzy_path(
module_with_candidate: Module,
qualifier: Option<ast::Path>,
fuzzy_name: String,
sema: &Semantics<RootDatabase>,
candidate_node: SyntaxNode,
) -> Option<Self> {
Some(Self {
import_candidate: ImportCandidate::for_fuzzy_path(qualifier, fuzzy_name, sema)?,
module_with_candidate,
candidate_node,
})
}
pub fn for_fuzzy_method_call(
module_with_method_call: Module,
receiver_ty: Type,
fuzzy_method_name: String,
candidate_node: SyntaxNode,
) -> Option<Self> {
Some(Self {
import_candidate: ImportCandidate::TraitMethod(TraitImportCandidate {
receiver_ty,
assoc_item_name: NameToImport::Fuzzy(fuzzy_method_name),
}),
module_with_candidate: module_with_method_call,
candidate_node,
})
}
}
/// An import (not necessary the only one) that corresponds a certain given [`PathImportCandidate`].
/// (the structure is not entirely correct, since there can be situations requiring two imports, see FIXME below for the details)
#[derive(Debug, Clone, PartialEq, Eq, Hash)]
pub struct LocatedImport {
/// The path to use in the `use` statement for a given candidate to be imported.
pub import_path: ModPath,
/// An item that will be imported with the import path given.
pub item_to_import: ItemInNs,
/// The path import candidate, resolved.
///
/// Not necessary matches the import:
/// For any associated constant from the trait, we try to access as `some::path::SomeStruct::ASSOC_`
/// the original item is the associated constant, but the import has to be a trait that
/// defines this constant.
pub original_item: ItemInNs,
/// A path of the original item.
pub original_path: Option<ModPath>,
}
impl LocatedImport {
pub fn new(
import_path: ModPath,
item_to_import: ItemInNs,
original_item: ItemInNs,
original_path: Option<ModPath>,
) -> Self {
Self { import_path, item_to_import, original_item, original_path }
}
}
impl ImportAssets {
pub fn import_candidate(&self) -> &ImportCandidate {
&self.import_candidate
}
pub fn search_for_imports(
&self,
sema: &Semantics<RootDatabase>,
prefix_kind: PrefixKind,
) -> Vec<LocatedImport> {
let _p = profile::span("import_assets::search_for_imports");
self.search_for(sema, Some(prefix_kind))
}
/// This may return non-absolute paths if a part of the returned path is already imported into scope.
pub fn search_for_relative_paths(&self, sema: &Semantics<RootDatabase>) -> Vec<LocatedImport> {
let _p = profile::span("import_assets::search_for_relative_paths");
self.search_for(sema, None)
}
fn search_for(
&self,
sema: &Semantics<RootDatabase>,
prefixed: Option<PrefixKind>,
) -> Vec<LocatedImport> {
let _p = profile::span("import_assets::search_for");
let scope_definitions = self.scope_definitions(sema);
let current_crate = self.module_with_candidate.krate();
let mod_path = |item| {
get_mod_path(
sema.db,
item_for_path_search(sema.db, item)?,
&self.module_with_candidate,
prefixed,
)
};
match &self.import_candidate {
ImportCandidate::Path(path_candidate) => {
path_applicable_imports(sema, current_crate, path_candidate, mod_path)
}
ImportCandidate::TraitAssocItem(trait_candidate) => {
trait_applicable_items(sema, current_crate, trait_candidate, true, mod_path)
}
ImportCandidate::TraitMethod(trait_candidate) => {
trait_applicable_items(sema, current_crate, trait_candidate, false, mod_path)
}
}
.into_iter()
.filter(|import| import.import_path.len() > 1)
.filter(|import| !scope_definitions.contains(&ScopeDef::from(import.item_to_import)))
.sorted_by_key(|import| import.import_path.clone())
.collect()
}
fn scope_definitions(&self, sema: &Semantics<RootDatabase>) -> FxHashSet<ScopeDef> {
let _p = profile::span("import_assets::scope_definitions");
let mut scope_definitions = FxHashSet::default();
sema.scope(&self.candidate_node).process_all_names(&mut |_, scope_def| {
scope_definitions.insert(scope_def);
});
scope_definitions
}
}
fn path_applicable_imports(
sema: &Semantics<RootDatabase>,
current_crate: Crate,
path_candidate: &PathImportCandidate,
mod_path: impl Fn(ItemInNs) -> Option<ModPath> + Copy,
) -> FxHashSet<LocatedImport> {
let _p = profile::span("import_assets::path_applicable_imports");
match &path_candidate.qualifier {
None => {
items_locator::items_with_name(
sema,
current_crate,
path_candidate.name.clone(),
// FIXME: we could look up assoc items by the input and propose those in completion,
// but that requries more preparation first:
// * store non-trait assoc items in import_map to fully enable this lookup
// * ensure that does not degrade the performance (bencmark it)
// * write more logic to check for corresponding trait presence requirement (we're unable to flyimport multiple item right now)
// * improve the associated completion item matching and/or scoring to ensure no noisy completions appear
//
// see also an ignored test under FIXME comment in the qualify_path.rs module
AssocItemSearch::Exclude,
Some(DEFAULT_QUERY_SEARCH_LIMIT),
)
.filter_map(|item| {
let mod_path = mod_path(item)?;
Some(LocatedImport::new(mod_path.clone(), item, item, Some(mod_path)))
})
.collect()
}
Some(first_segment_unresolved) => {
let unresolved_qualifier =
path_to_string_stripping_turbo_fish(&first_segment_unresolved.full_qualifier);
let unresolved_first_segment = first_segment_unresolved.fist_segment.text();
items_locator::items_with_name(
sema,
current_crate,
path_candidate.name.clone(),
AssocItemSearch::Include,
Some(DEFAULT_QUERY_SEARCH_LIMIT),
)
.filter_map(|item| {
import_for_item(
sema.db,
mod_path,
&unresolved_first_segment,
&unresolved_qualifier,
item,
)
})
.collect()
}
}
}
fn import_for_item(
db: &RootDatabase,
mod_path: impl Fn(ItemInNs) -> Option<ModPath>,
unresolved_first_segment: &str,
unresolved_qualifier: &str,
original_item: ItemInNs,
) -> Option<LocatedImport> {
let _p = profile::span("import_assets::import_for_item");
let original_item_candidate = item_for_path_search(db, original_item)?;
let import_path_candidate = mod_path(original_item_candidate)?;
let import_path_string = import_path_candidate.to_string();
let expected_import_end = if item_as_assoc(db, original_item).is_some() {
unresolved_qualifier.to_string()
} else {
format!("{}::{}", unresolved_qualifier, item_name(db, original_item)?)
};
if !import_path_string.contains(unresolved_first_segment)
|| !import_path_string.ends_with(&expected_import_end)
{
return None;
}
let segment_import =
find_import_for_segment(db, original_item_candidate, &unresolved_first_segment)?;
let trait_item_to_import = item_as_assoc(db, original_item)
.and_then(|assoc| assoc.containing_trait(db))
.map(|trait_| ItemInNs::from(ModuleDef::from(trait_)));
Some(match (segment_import == original_item_candidate, trait_item_to_import) {
(true, Some(_)) => {
// FIXME we should be able to import both the trait and the segment,
// but it's unclear what to do with overlapping edits (merge imports?)
// especially in case of lazy completion edit resolutions.
return None;
}
(false, Some(trait_to_import)) => LocatedImport::new(
mod_path(trait_to_import)?,
trait_to_import,
original_item,
mod_path(original_item),
),
(true, None) => LocatedImport::new(
import_path_candidate,
original_item_candidate,
original_item,
mod_path(original_item),
),
(false, None) => LocatedImport::new(
mod_path(segment_import)?,
segment_import,
original_item,
mod_path(original_item),
),
})
}
fn item_for_path_search(db: &RootDatabase, item: ItemInNs) -> Option<ItemInNs> {
Some(match item {
ItemInNs::Types(_) | ItemInNs::Values(_) => match item_as_assoc(db, item) {
Some(assoc_item) => match assoc_item.container(db) {
AssocItemContainer::Trait(trait_) => ItemInNs::from(ModuleDef::from(trait_)),
AssocItemContainer::Impl(impl_) => {
ItemInNs::from(ModuleDef::from(impl_.self_ty(db).as_adt()?))
}
},
None => item,
},
ItemInNs::Macros(_) => item,
})
}
fn find_import_for_segment(
db: &RootDatabase,
original_item: ItemInNs,
unresolved_first_segment: &str,
) -> Option<ItemInNs> {
let segment_is_name = item_name(db, original_item)
.map(|name| name.to_string() == unresolved_first_segment)
.unwrap_or(false);
Some(if segment_is_name {
original_item
} else {
let matching_module =
module_with_segment_name(db, &unresolved_first_segment, original_item)?;
ItemInNs::from(ModuleDef::from(matching_module))
})
}
fn module_with_segment_name(
db: &RootDatabase,
segment_name: &str,
candidate: ItemInNs,
) -> Option<Module> {
let mut current_module = match candidate {
ItemInNs::Types(module_def_id) => ModuleDef::from(module_def_id).module(db),
ItemInNs::Values(module_def_id) => ModuleDef::from(module_def_id).module(db),
ItemInNs::Macros(macro_def_id) => MacroDef::from(macro_def_id).module(db),
};
while let Some(module) = current_module {
if let Some(module_name) = module.name(db) {
if module_name.to_string() == segment_name {
return Some(module);
}
}
current_module = module.parent(db);
}
None
}
fn trait_applicable_items(
sema: &Semantics<RootDatabase>,
current_crate: Crate,
trait_candidate: &TraitImportCandidate,
trait_assoc_item: bool,
mod_path: impl Fn(ItemInNs) -> Option<ModPath>,
) -> FxHashSet<LocatedImport> {
let _p = profile::span("import_assets::trait_applicable_items");
let db = sema.db;
let mut required_assoc_items = FxHashSet::default();
let trait_candidates = items_locator::items_with_name(
sema,
current_crate,
trait_candidate.assoc_item_name.clone(),
AssocItemSearch::AssocItemsOnly,
Some(DEFAULT_QUERY_SEARCH_LIMIT),
)
.filter_map(|input| item_as_assoc(db, input))
.filter_map(|assoc| {
let assoc_item_trait = assoc.containing_trait(db)?;
required_assoc_items.insert(assoc);
Some(assoc_item_trait.into())
})
.collect();
let mut located_imports = FxHashSet::default();
if trait_assoc_item {
trait_candidate.receiver_ty.iterate_path_candidates(
db,
current_crate,
&trait_candidates,
None,
|_, assoc| {
if required_assoc_items.contains(&assoc) {
if let AssocItem::Function(f) = assoc {
if f.self_param(db).is_some() {
return None;
}
}
let item = ItemInNs::from(ModuleDef::from(assoc.containing_trait(db)?));
let original_item = assoc_to_item(assoc);
located_imports.insert(LocatedImport::new(
mod_path(item)?,
item,
original_item,
mod_path(original_item),
));
}
None::<()>
},
)
} else {
trait_candidate.receiver_ty.iterate_method_candidates(
db,
current_crate,
&trait_candidates,
None,
|_, function| {
let assoc = function.as_assoc_item(db)?;
if required_assoc_items.contains(&assoc) {
let item = ItemInNs::from(ModuleDef::from(assoc.containing_trait(db)?));
let original_item = assoc_to_item(assoc);
located_imports.insert(LocatedImport::new(
mod_path(item)?,
item,
original_item,
mod_path(original_item),
));
}
None::<()>
},
)
};
located_imports
}
fn assoc_to_item(assoc: AssocItem) -> ItemInNs {
match assoc {
AssocItem::Function(f) => ItemInNs::from(ModuleDef::from(f)),
AssocItem::Const(c) => ItemInNs::from(ModuleDef::from(c)),
AssocItem::TypeAlias(t) => ItemInNs::from(ModuleDef::from(t)),
}
}
fn get_mod_path(
db: &RootDatabase,
item_to_search: ItemInNs,
module_with_candidate: &Module,
prefixed: Option<PrefixKind>,
) -> Option<ModPath> {
if let Some(prefix_kind) = prefixed {
module_with_candidate.find_use_path_prefixed(db, item_to_search, prefix_kind)
} else {
module_with_candidate.find_use_path(db, item_to_search)
}
}
impl ImportCandidate {
fn for_method_call(
sema: &Semantics<RootDatabase>,
method_call: &ast::MethodCallExpr,
) -> Option<Self> {
match sema.resolve_method_call(method_call) {
Some(_) => None,
None => Some(Self::TraitMethod(TraitImportCandidate {
receiver_ty: sema.type_of_expr(&method_call.receiver()?)?,
assoc_item_name: NameToImport::Exact(method_call.name_ref()?.to_string()),
})),
}
}
fn for_regular_path(sema: &Semantics<RootDatabase>, path: &ast::Path) -> Option<Self> {
if sema.resolve_path(path).is_some() {
return None;
}
path_import_candidate(
sema,
path.qualifier(),
NameToImport::Exact(path.segment()?.name_ref()?.to_string()),
)
}
fn for_fuzzy_path(
qualifier: Option<ast::Path>,
fuzzy_name: String,
sema: &Semantics<RootDatabase>,
) -> Option<Self> {
path_import_candidate(sema, qualifier, NameToImport::Fuzzy(fuzzy_name))
}
}
fn path_import_candidate(
sema: &Semantics<RootDatabase>,
qualifier: Option<ast::Path>,
name: NameToImport,
) -> Option<ImportCandidate> {
Some(match qualifier {
Some(qualifier) => match sema.resolve_path(&qualifier) {
None => {
let qualifier_start =
qualifier.syntax().descendants().find_map(ast::NameRef::cast)?;
let qualifier_start_path =
qualifier_start.syntax().ancestors().find_map(ast::Path::cast)?;
if sema.resolve_path(&qualifier_start_path).is_none() {
ImportCandidate::Path(PathImportCandidate {
qualifier: Some(FirstSegmentUnresolved {
fist_segment: qualifier_start,
full_qualifier: qualifier,
}),
name,
})
} else {
return None;
}
}
Some(PathResolution::Def(ModuleDef::Adt(assoc_item_path))) => {
ImportCandidate::TraitAssocItem(TraitImportCandidate {
receiver_ty: assoc_item_path.ty(sema.db),
assoc_item_name: name,
})
}
Some(_) => return None,
},
None => ImportCandidate::Path(PathImportCandidate { qualifier: None, name }),
})
}
fn item_as_assoc(db: &RootDatabase, item: ItemInNs) -> Option<AssocItem> {
item.as_module_def_id()
.and_then(|module_def_id| ModuleDef::from(module_def_id).as_assoc_item(db))
}