use ra_ide_db::{imports_locator::ImportsLocator, RootDatabase}; use ra_syntax::{ ast::{self, AstNode}, SyntaxNode, }; use crate::{ assist_ctx::{Assist, AssistCtx}, insert_use_statement, AssistId, }; use hir::{ db::{DefDatabase, HirDatabase}, AssocContainerId, AssocItem, Crate, Function, ModPath, Module, ModuleDef, PathResolution, SourceAnalyzer, Trait, Type, }; use rustc_hash::FxHashSet; use std::collections::BTreeSet; // Assist: auto_import // // If the name is unresolved, provides all possible imports for it. // // ``` // fn main() { // let map = HashMap<|>::new(); // } // # pub mod std { pub mod collections { pub struct HashMap { } } } // ``` // -> // ``` // use std::collections::HashMap; // // fn main() { // let map = HashMap::new(); // } // # pub mod std { pub mod collections { pub struct HashMap { } } } // ``` pub(crate) fn auto_import(ctx: AssistCtx) -> Option { let auto_import_assets = if let Some(path_under_caret) = ctx.find_node_at_offset::() { AutoImportAssets::for_regular_path(path_under_caret, &ctx)? } else { AutoImportAssets::for_method_call(ctx.find_node_at_offset()?, &ctx)? }; let proposed_imports = auto_import_assets .search_for_imports(ctx.db, auto_import_assets.module_with_name_to_import); if proposed_imports.is_empty() { return None; } let mut group = // TODO kb create another method and add something about traits there ctx.add_assist_group(format!("Import {}", auto_import_assets.get_search_query())); for import in proposed_imports { group.add_assist(AssistId("auto_import"), format!("Import `{}`", &import), |edit| { edit.target(auto_import_assets.syntax_under_caret.text_range()); insert_use_statement( &auto_import_assets.syntax_under_caret, &auto_import_assets.syntax_under_caret, &import, edit.text_edit_builder(), ); }); } group.finish() } struct AutoImportAssets { import_candidate: ImportCandidate, module_with_name_to_import: Module, syntax_under_caret: SyntaxNode, } impl AutoImportAssets { fn for_method_call(method_call: ast::MethodCallExpr, ctx: &AssistCtx) -> Option { let syntax_under_caret = method_call.syntax().to_owned(); let source_analyzer = ctx.source_analyzer(&syntax_under_caret, None); let module_with_name_to_import = source_analyzer.module()?; Some(Self { import_candidate: ImportCandidate::for_method_call( &method_call, &source_analyzer, ctx.db, )?, module_with_name_to_import, syntax_under_caret, }) } fn for_regular_path(path_under_caret: ast::Path, ctx: &AssistCtx) -> Option { let syntax_under_caret = path_under_caret.syntax().to_owned(); if syntax_under_caret.ancestors().find_map(ast::UseItem::cast).is_some() { return None; } let source_analyzer = ctx.source_analyzer(&syntax_under_caret, None); let module_with_name_to_import = source_analyzer.module()?; Some(Self { import_candidate: ImportCandidate::for_regular_path( &path_under_caret, &source_analyzer, ctx.db, )?, module_with_name_to_import, syntax_under_caret, }) } fn get_search_query(&self) -> String { match &self.import_candidate { ImportCandidate::UnqualifiedName(name_ref) | ImportCandidate::QualifierStart(name_ref) => name_ref.syntax().to_string(), ImportCandidate::TraitFunction(_, trait_function) => { trait_function.syntax().to_string() } ImportCandidate::TraitMethod(_, trait_method) => trait_method.syntax().to_string(), } } fn search_for_imports( &self, db: &RootDatabase, module_with_name_to_import: Module, ) -> BTreeSet { ImportsLocator::new(db) .find_imports(&self.get_search_query()) .into_iter() .map(|module_def| match &self.import_candidate { ImportCandidate::TraitFunction(function_callee, _) => { let mut applicable_traits = Vec::new(); if let ModuleDef::Function(located_function) = module_def { let trait_candidates = Self::get_trait_candidates( db, located_function, module_with_name_to_import.krate(), ) .into_iter() .map(|trait_candidate| trait_candidate.into()) .collect(); function_callee.iterate_path_candidates( db, module_with_name_to_import.krate(), &trait_candidates, None, |_, assoc| { if let AssocContainerId::TraitId(trait_id) = assoc.container(db) { applicable_traits.push( module_with_name_to_import .find_use_path(db, ModuleDef::Trait(trait_id.into())), ); }; None::<()> }, ); } applicable_traits } ImportCandidate::TraitMethod(function_callee, _) => { let mut applicable_traits = Vec::new(); if let ModuleDef::Function(located_function) = module_def { let trait_candidates: FxHashSet<_> = Self::get_trait_candidates( db, located_function, module_with_name_to_import.krate(), ) .into_iter() .map(|trait_candidate| trait_candidate.into()) .collect(); if !trait_candidates.is_empty() { function_callee.iterate_method_candidates( db, module_with_name_to_import.krate(), &trait_candidates, None, |_, funciton| { if let AssocContainerId::TraitId(trait_id) = funciton.container(db) { applicable_traits.push( module_with_name_to_import.find_use_path( db, ModuleDef::Trait(trait_id.into()), ), ); }; None::<()> }, ); } } applicable_traits } _ => vec![module_with_name_to_import.find_use_path(db, module_def)], }) .flatten() .filter_map(std::convert::identity) .filter(|use_path| !use_path.segments.is_empty()) .take(20) .collect::>() } fn get_trait_candidates( db: &RootDatabase, called_function: Function, root_crate: Crate, ) -> FxHashSet { root_crate .dependencies(db) .into_iter() .map(|dependency| db.crate_def_map(dependency.krate.into())) .chain(std::iter::once(db.crate_def_map(root_crate.into()))) .map(|crate_def_map| { crate_def_map .modules .iter() .map(|(_, module_data)| { let mut traits = Vec::new(); for module_def_id in module_data.scope.declarations() { if let ModuleDef::Trait(trait_candidate) = module_def_id.into() { if trait_candidate .items(db) .into_iter() .any(|item| item == AssocItem::Function(called_function)) { traits.push(trait_candidate) } } } traits }) .flatten() .collect::>() }) .flatten() .collect() } } #[derive(Debug)] // TODO kb rustdocs enum ImportCandidate { UnqualifiedName(ast::NameRef), QualifierStart(ast::NameRef), TraitFunction(Type, ast::PathSegment), TraitMethod(Type, ast::NameRef), } impl ImportCandidate { fn for_method_call( method_call: &ast::MethodCallExpr, source_analyzer: &SourceAnalyzer, db: &impl HirDatabase, ) -> Option { if source_analyzer.resolve_method_call(method_call).is_some() { return None; } Some(Self::TraitMethod( source_analyzer.type_of(db, &method_call.expr()?)?, method_call.name_ref()?, )) } fn for_regular_path( path_under_caret: &ast::Path, source_analyzer: &SourceAnalyzer, db: &impl HirDatabase, ) -> Option { if source_analyzer.resolve_path(db, path_under_caret).is_some() { return None; } let segment = path_under_caret.segment()?; if let Some(qualifier) = path_under_caret.qualifier() { 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 let Some(qualifier_start_resolution) = source_analyzer.resolve_path(db, &qualifier_start_path) { let qualifier_resolution = if &qualifier_start_path == path_under_caret { qualifier_start_resolution } else { source_analyzer.resolve_path(db, &qualifier)? }; if let PathResolution::Def(ModuleDef::Adt(function_callee)) = qualifier_resolution { Some(ImportCandidate::TraitFunction(function_callee.ty(db), segment)) } else { None } } else { Some(ImportCandidate::QualifierStart(qualifier_start)) } } else { if source_analyzer.resolve_path(db, path_under_caret).is_none() { Some(ImportCandidate::UnqualifiedName( segment.syntax().descendants().find_map(ast::NameRef::cast)?, )) } else { None } } } } #[cfg(test)] mod tests { use crate::helpers::{check_assist, check_assist_not_applicable, check_assist_target}; use super::*; #[test] fn applicable_when_found_an_import() { check_assist( auto_import, r" <|>PubStruct pub mod PubMod { pub struct PubStruct; } ", r" <|>use PubMod::PubStruct; PubStruct pub mod PubMod { pub struct PubStruct; } ", ); } #[test] fn auto_imports_are_merged() { check_assist( auto_import, r" use PubMod::PubStruct1; struct Test { test: Pub<|>Struct2, } pub mod PubMod { pub struct PubStruct1; pub struct PubStruct2 { _t: T, } } ", r" use PubMod::{PubStruct2, PubStruct1}; struct Test { test: Pub<|>Struct2, } pub mod PubMod { pub struct PubStruct1; pub struct PubStruct2 { _t: T, } } ", ); } #[test] fn applicable_when_found_multiple_imports() { check_assist( auto_import, r" PubSt<|>ruct pub mod PubMod1 { pub struct PubStruct; } pub mod PubMod2 { pub struct PubStruct; } pub mod PubMod3 { pub struct PubStruct; } ", r" use PubMod1::PubStruct; PubSt<|>ruct pub mod PubMod1 { pub struct PubStruct; } pub mod PubMod2 { pub struct PubStruct; } pub mod PubMod3 { pub struct PubStruct; } ", ); } #[test] fn not_applicable_for_already_imported_types() { check_assist_not_applicable( auto_import, r" use PubMod::PubStruct; PubStruct<|> pub mod PubMod { pub struct PubStruct; } ", ); } #[test] fn not_applicable_for_types_with_private_paths() { check_assist_not_applicable( auto_import, r" PrivateStruct<|> pub mod PubMod { struct PrivateStruct; } ", ); } #[test] fn not_applicable_when_no_imports_found() { check_assist_not_applicable( auto_import, " PubStruct<|>", ); } #[test] fn not_applicable_in_import_statements() { check_assist_not_applicable( auto_import, r" use PubStruct<|>; pub mod PubMod { pub struct PubStruct; }", ); } #[test] fn function_import() { check_assist( auto_import, r" test_function<|> pub mod PubMod { pub fn test_function() {}; } ", r" use PubMod::test_function; test_function<|> pub mod PubMod { pub fn test_function() {}; } ", ); } #[test] fn auto_import_target() { check_assist_target( auto_import, r" struct AssistInfo { group_label: Option<<|>GroupLabel>, } mod m { pub struct GroupLabel; } ", "GroupLabel", ) } #[test] fn not_applicable_when_path_start_is_imported() { check_assist_not_applicable( auto_import, r" pub mod mod1 { pub mod mod2 { pub mod mod3 { pub struct TestStruct; } } } use mod1::mod2; fn main() { mod2::mod3::TestStruct<|> } ", ); } #[test] fn not_applicable_for_imported_function() { check_assist_not_applicable( auto_import, r" pub mod test_mod { pub fn test_function() {} } use test_mod::test_function; fn main() { test_function<|> } ", ); } #[test] fn associated_struct_function() { check_assist( auto_import, r" mod test_mod { pub struct TestStruct {} impl TestStruct { pub fn test_function() {} } } fn main() { TestStruct::test_function<|> } ", r" use test_mod::TestStruct; mod test_mod { pub struct TestStruct {} impl TestStruct { pub fn test_function() {} } } fn main() { TestStruct::test_function<|> } ", ); } #[test] fn associated_trait_function() { check_assist( auto_import, r" mod test_mod { pub trait TestTrait { fn test_function(); } pub struct TestStruct {} impl TestTrait for TestStruct { fn test_function() {} } } fn main() { test_mod::TestStruct::test_function<|> } ", r" use test_mod::TestTrait; mod test_mod { pub trait TestTrait { fn test_function(); } pub struct TestStruct {} impl TestTrait for TestStruct { fn test_function() {} } } fn main() { test_mod::TestStruct::test_function<|> } ", ); } #[test] fn not_applicable_for_imported_trait_for_function() { check_assist_not_applicable( auto_import, r" mod test_mod { pub trait TestTrait { fn test_function(); } pub trait TestTrait2 { fn test_function(); } pub enum TestEnum { One, Two, } impl TestTrait2 for TestEnum { fn test_function() {} } impl TestTrait for TestEnum { fn test_function() {} } } use test_mod::TestTrait2; fn main() { test_mod::TestEnum::test_function<|>; } ", ) } #[test] fn trait_method() { check_assist( auto_import, r" mod test_mod { pub trait TestTrait { fn test_method(&self); } pub struct TestStruct {} impl TestTrait for TestStruct { fn test_method(&self) {} } } fn main() { let test_struct = test_mod::TestStruct {}; test_struct.test_meth<|>od() } ", r" use test_mod::TestTrait; mod test_mod { pub trait TestTrait { fn test_method(&self); } pub struct TestStruct {} impl TestTrait for TestStruct { fn test_method(&self) {} } } fn main() { let test_struct = test_mod::TestStruct {}; test_struct.test_meth<|>od() } ", ); } #[test] fn not_applicable_for_imported_trait_for_method() { check_assist_not_applicable( auto_import, r" mod test_mod { pub trait TestTrait { fn test_method(&self); } pub trait TestTrait2 { fn test_method(&self); } pub enum TestEnum { One, Two, } impl TestTrait2 for TestEnum { fn test_method(&self) {} } impl TestTrait for TestEnum { fn test_method(&self) {} } } use test_mod::TestTrait2; fn main() { let one = test_mod::TestEnum::One; one.test<|>_method(); } ", ) } }