use std::iter; use hir::AsAssocItem; use ide_db::RootDatabase; use ide_db::{ helpers::mod_path_to_ast, imports::import_assets::{ImportCandidate, LocatedImport}, }; use syntax::{ ast, ast::{make, HasArgList}, AstNode, NodeOrToken, }; use crate::{ assist_context::{AssistContext, Assists}, handlers::auto_import::find_importable_node, AssistId, AssistKind, GroupLabel, }; // Assist: qualify_path // // If the name is unresolved, provides all possible qualified paths for it. // // ``` // fn main() { // let map = HashMap$0::new(); // } // # pub mod std { pub mod collections { pub struct HashMap { } } } // ``` // -> // ``` // fn main() { // let map = std::collections::HashMap::new(); // } // # pub mod std { pub mod collections { pub struct HashMap { } } } // ``` pub(crate) fn qualify_path(acc: &mut Assists, ctx: &AssistContext) -> Option<()> { let (import_assets, syntax_under_caret) = find_importable_node(ctx)?; let mut proposed_imports = import_assets.search_for_relative_paths(&ctx.sema); if proposed_imports.is_empty() { return None; } let range = match &syntax_under_caret { NodeOrToken::Node(node) => ctx.sema.original_range(node).range, NodeOrToken::Token(token) => token.text_range(), }; let candidate = import_assets.import_candidate(); let qualify_candidate = match syntax_under_caret { NodeOrToken::Node(syntax_under_caret) => match candidate { ImportCandidate::Path(candidate) if candidate.qualifier.is_some() => { cov_mark::hit!(qualify_path_qualifier_start); let path = ast::Path::cast(syntax_under_caret)?; let (prev_segment, segment) = (path.qualifier()?.segment()?, path.segment()?); QualifyCandidate::QualifierStart(segment, prev_segment.generic_arg_list()) } ImportCandidate::Path(_) => { cov_mark::hit!(qualify_path_unqualified_name); let path = ast::Path::cast(syntax_under_caret)?; let generics = path.segment()?.generic_arg_list(); QualifyCandidate::UnqualifiedName(generics) } ImportCandidate::TraitAssocItem(_) => { cov_mark::hit!(qualify_path_trait_assoc_item); let path = ast::Path::cast(syntax_under_caret)?; let (qualifier, segment) = (path.qualifier()?, path.segment()?); QualifyCandidate::TraitAssocItem(qualifier, segment) } ImportCandidate::TraitMethod(_) => { cov_mark::hit!(qualify_path_trait_method); let mcall_expr = ast::MethodCallExpr::cast(syntax_under_caret)?; QualifyCandidate::TraitMethod(ctx.sema.db, mcall_expr) } }, // derive attribute path NodeOrToken::Token(_) => QualifyCandidate::UnqualifiedName(None), }; // we aren't interested in different namespaces proposed_imports.dedup_by(|a, b| a.import_path == b.import_path); let group_label = group_label(candidate); for import in proposed_imports { acc.add_group( &group_label, AssistId("qualify_path", AssistKind::QuickFix), label(candidate, &import), range, |builder| { qualify_candidate.qualify( |replace_with: String| builder.replace(range, replace_with), &import.import_path, import.item_to_import, ) }, ); } Some(()) } pub(crate) enum QualifyCandidate<'db> { QualifierStart(ast::PathSegment, Option), UnqualifiedName(Option), TraitAssocItem(ast::Path, ast::PathSegment), TraitMethod(&'db RootDatabase, ast::MethodCallExpr), ImplMethod(&'db RootDatabase, ast::MethodCallExpr, hir::Function), } impl QualifyCandidate<'_> { pub(crate) fn qualify( &self, mut replacer: impl FnMut(String), import: &hir::ModPath, item: hir::ItemInNs, ) { let import = mod_path_to_ast(import); match self { QualifyCandidate::QualifierStart(segment, generics) => { let generics = generics.as_ref().map_or_else(String::new, ToString::to_string); replacer(format!("{}{}::{}", import, generics, segment)); } QualifyCandidate::UnqualifiedName(generics) => { let generics = generics.as_ref().map_or_else(String::new, ToString::to_string); replacer(format!("{}{}", import, generics)); } QualifyCandidate::TraitAssocItem(qualifier, segment) => { replacer(format!("<{} as {}>::{}", qualifier, import, segment)); } QualifyCandidate::TraitMethod(db, mcall_expr) => { Self::qualify_trait_method(db, mcall_expr, replacer, import, item); } QualifyCandidate::ImplMethod(db, mcall_expr, hir_fn) => { Self::qualify_fn_call(db, mcall_expr, replacer, import, hir_fn); } } } fn qualify_fn_call( db: &RootDatabase, mcall_expr: &ast::MethodCallExpr, mut replacer: impl FnMut(String), import: ast::Path, hir_fn: &hir::Function, ) -> Option<()> { let receiver = mcall_expr.receiver()?; let method_name = mcall_expr.name_ref()?; let generics = mcall_expr.generic_arg_list().as_ref().map_or_else(String::new, ToString::to_string); let arg_list = mcall_expr.arg_list().map(|arg_list| arg_list.args()); if let Some(self_access) = hir_fn.self_param(db).map(|sp| sp.access(db)) { let receiver = match self_access { hir::Access::Shared => make::expr_ref(receiver, false), hir::Access::Exclusive => make::expr_ref(receiver, true), hir::Access::Owned => receiver, }; replacer(format!( "{}::{}{}{}", import, method_name, generics, match arg_list { Some(args) => make::arg_list(iter::once(receiver).chain(args)), None => make::arg_list(iter::once(receiver)), } )); } Some(()) } fn qualify_trait_method( db: &RootDatabase, mcall_expr: &ast::MethodCallExpr, replacer: impl FnMut(String), import: ast::Path, item: hir::ItemInNs, ) -> Option<()> { let trait_method_name = mcall_expr.name_ref()?; let trait_ = item_as_trait(db, item)?; let method = find_trait_method(db, trait_, &trait_method_name)?; Self::qualify_fn_call(db, mcall_expr, replacer, import, &method) } } fn find_trait_method( db: &RootDatabase, trait_: hir::Trait, trait_method_name: &ast::NameRef, ) -> Option { if let Some(hir::AssocItem::Function(method)) = trait_.items(db).into_iter().find(|item: &hir::AssocItem| { item.name(db) .map(|name| name.to_string() == trait_method_name.to_string()) .unwrap_or(false) }) { Some(method) } else { None } } fn item_as_trait(db: &RootDatabase, item: hir::ItemInNs) -> Option { let item_module_def = item.as_module_def()?; match item_module_def { hir::ModuleDef::Trait(trait_) => Some(trait_), _ => item_module_def.as_assoc_item(db)?.containing_trait(db), } } fn group_label(candidate: &ImportCandidate) -> GroupLabel { let name = match candidate { ImportCandidate::Path(it) => &it.name, ImportCandidate::TraitAssocItem(it) | ImportCandidate::TraitMethod(it) => { &it.assoc_item_name } } .text(); GroupLabel(format!("Qualify {}", name)) } fn label(candidate: &ImportCandidate, import: &LocatedImport) -> String { match candidate { ImportCandidate::Path(candidate) if candidate.qualifier.is_none() => { format!("Qualify as `{}`", import.import_path) } _ => format!("Qualify with `{}`", import.import_path), } } #[cfg(test)] mod tests { use crate::tests::{check_assist, check_assist_not_applicable, check_assist_target}; use super::*; #[test] fn applicable_when_found_an_import_partial() { cov_mark::check!(qualify_path_unqualified_name); check_assist( qualify_path, r#" mod std { pub mod fmt { pub struct Formatter; } } use std::fmt; $0Formatter "#, r#" mod std { pub mod fmt { pub struct Formatter; } } use std::fmt; fmt::Formatter "#, ); } #[test] fn applicable_when_found_an_import() { check_assist( qualify_path, r#" $0PubStruct pub mod PubMod { pub struct PubStruct; } "#, r#" PubMod::PubStruct pub mod PubMod { pub struct PubStruct; } "#, ); } #[test] fn applicable_in_macros() { check_assist( qualify_path, r#" macro_rules! foo { ($i:ident) => { fn foo(a: $i) {} } } foo!(Pub$0Struct); pub mod PubMod { pub struct PubStruct; } "#, r#" macro_rules! foo { ($i:ident) => { fn foo(a: $i) {} } } foo!(PubMod::PubStruct); pub mod PubMod { pub struct PubStruct; } "#, ); } #[test] fn applicable_when_found_multiple_imports() { check_assist( qualify_path, r#" PubSt$0ruct pub mod PubMod1 { pub struct PubStruct; } pub mod PubMod2 { pub struct PubStruct; } pub mod PubMod3 { pub struct PubStruct; } "#, r#" PubMod3::PubStruct 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( qualify_path, r#" use PubMod::PubStruct; PubStruct$0 pub mod PubMod { pub struct PubStruct; } "#, ); } #[test] fn not_applicable_for_types_with_private_paths() { check_assist_not_applicable( qualify_path, r#" PrivateStruct$0 pub mod PubMod { struct PrivateStruct; } "#, ); } #[test] fn not_applicable_when_no_imports_found() { check_assist_not_applicable(qualify_path, r#"PubStruct$0"#); } #[test] fn not_applicable_in_import_statements() { check_assist_not_applicable( qualify_path, r#" use PubStruct$0; pub mod PubMod { pub struct PubStruct; } "#, ); } #[test] fn qualify_function() { check_assist( qualify_path, r#" test_function$0 pub mod PubMod { pub fn test_function() {}; } "#, r#" PubMod::test_function pub mod PubMod { pub fn test_function() {}; } "#, ); } #[test] fn qualify_macro() { check_assist( qualify_path, r#" //- /lib.rs crate:crate_with_macro #[macro_export] macro_rules! foo { () => () } //- /main.rs crate:main deps:crate_with_macro fn main() { foo$0 } "#, r#" fn main() { crate_with_macro::foo } "#, ); } #[test] fn qualify_path_target() { check_assist_target( qualify_path, r#" struct AssistInfo { group_label: Option<$0GroupLabel>, } mod m { pub struct GroupLabel; } "#, "GroupLabel", ) } #[test] fn not_applicable_when_path_start_is_imported() { check_assist_not_applicable( qualify_path, r#" pub mod mod1 { pub mod mod2 { pub mod mod3 { pub struct TestStruct; } } } use mod1::mod2; fn main() { mod2::mod3::TestStruct$0 } "#, ); } #[test] fn not_applicable_for_imported_function() { check_assist_not_applicable( qualify_path, r#" pub mod test_mod { pub fn test_function() {} } use test_mod::test_function; fn main() { test_function$0 } "#, ); } #[test] fn associated_struct_function() { check_assist( qualify_path, r#" mod test_mod { pub struct TestStruct {} impl TestStruct { pub fn test_function() {} } } fn main() { TestStruct::test_function$0 } "#, r#" mod test_mod { pub struct TestStruct {} impl TestStruct { pub fn test_function() {} } } fn main() { test_mod::TestStruct::test_function } "#, ); } #[test] fn associated_struct_const() { cov_mark::check!(qualify_path_qualifier_start); check_assist( qualify_path, r#" mod test_mod { pub struct TestStruct {} impl TestStruct { const TEST_CONST: u8 = 42; } } fn main() { TestStruct::TEST_CONST$0 } "#, r#" mod test_mod { pub struct TestStruct {} impl TestStruct { const TEST_CONST: u8 = 42; } } fn main() { test_mod::TestStruct::TEST_CONST } "#, ); } #[test] fn associated_struct_const_unqualified() { // FIXME: non-trait assoc items completion is unsupported yet, see FIXME in the import_assets.rs for more details check_assist_not_applicable( qualify_path, r#" mod test_mod { pub struct TestStruct {} impl TestStruct { const TEST_CONST: u8 = 42; } } fn main() { TEST_CONST$0 } "#, ); } #[test] fn associated_trait_function() { check_assist( qualify_path, 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$0 } "#, r#" mod test_mod { pub trait TestTrait { fn test_function(); } pub struct TestStruct {} impl TestTrait for TestStruct { fn test_function() {} } } fn main() { ::test_function } "#, ); } #[test] fn not_applicable_for_imported_trait_for_function() { check_assist_not_applicable( qualify_path, 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$0; } "#, ) } #[test] fn associated_trait_const() { cov_mark::check!(qualify_path_trait_assoc_item); check_assist( qualify_path, r#" mod test_mod { pub trait TestTrait { const TEST_CONST: u8; } pub struct TestStruct {} impl TestTrait for TestStruct { const TEST_CONST: u8 = 42; } } fn main() { test_mod::TestStruct::TEST_CONST$0 } "#, r#" mod test_mod { pub trait TestTrait { const TEST_CONST: u8; } pub struct TestStruct {} impl TestTrait for TestStruct { const TEST_CONST: u8 = 42; } } fn main() { ::TEST_CONST } "#, ); } #[test] fn not_applicable_for_imported_trait_for_const() { check_assist_not_applicable( qualify_path, r#" mod test_mod { pub trait TestTrait { const TEST_CONST: u8; } pub trait TestTrait2 { const TEST_CONST: f64; } pub enum TestEnum { One, Two, } impl TestTrait2 for TestEnum { const TEST_CONST: f64 = 42.0; } impl TestTrait for TestEnum { const TEST_CONST: u8 = 42; } } use test_mod::TestTrait2; fn main() { test_mod::TestEnum::TEST_CONST$0; } "#, ) } #[test] fn trait_method() { cov_mark::check!(qualify_path_trait_method); check_assist( qualify_path, 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$0od() } "#, 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_mod::TestTrait::test_method(&test_struct) } "#, ); } #[test] fn trait_method_multi_params() { check_assist( qualify_path, r#" mod test_mod { pub trait TestTrait { fn test_method(&self, test: i32); } pub struct TestStruct {} impl TestTrait for TestStruct { fn test_method(&self, test: i32) {} } } fn main() { let test_struct = test_mod::TestStruct {}; test_struct.test_meth$0od(42) } "#, r#" mod test_mod { pub trait TestTrait { fn test_method(&self, test: i32); } pub struct TestStruct {} impl TestTrait for TestStruct { fn test_method(&self, test: i32) {} } } fn main() { let test_struct = test_mod::TestStruct {}; test_mod::TestTrait::test_method(&test_struct, 42) } "#, ); } #[test] fn trait_method_consume() { check_assist( qualify_path, 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$0od() } "#, 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_mod::TestTrait::test_method(test_struct) } "#, ); } #[test] fn trait_method_cross_crate() { check_assist( qualify_path, r#" //- /main.rs crate:main deps:dep fn main() { let test_struct = dep::test_mod::TestStruct {}; test_struct.test_meth$0od() } //- /dep.rs crate:dep pub mod test_mod { pub trait TestTrait { fn test_method(&self); } pub struct TestStruct {} impl TestTrait for TestStruct { fn test_method(&self) {} } } "#, r#" fn main() { let test_struct = dep::test_mod::TestStruct {}; dep::test_mod::TestTrait::test_method(&test_struct) } "#, ); } #[test] fn assoc_fn_cross_crate() { check_assist( qualify_path, r#" //- /main.rs crate:main deps:dep fn main() { dep::test_mod::TestStruct::test_func$0tion } //- /dep.rs crate:dep pub mod test_mod { pub trait TestTrait { fn test_function(); } pub struct TestStruct {} impl TestTrait for TestStruct { fn test_function() {} } } "#, r#" fn main() { ::test_function } "#, ); } #[test] fn assoc_const_cross_crate() { check_assist( qualify_path, r#" //- /main.rs crate:main deps:dep fn main() { dep::test_mod::TestStruct::CONST$0 } //- /dep.rs crate:dep pub mod test_mod { pub trait TestTrait { const CONST: bool; } pub struct TestStruct {} impl TestTrait for TestStruct { const CONST: bool = true; } } "#, r#" fn main() { ::CONST } "#, ); } #[test] fn assoc_fn_as_method_cross_crate() { check_assist_not_applicable( qualify_path, r#" //- /main.rs crate:main deps:dep fn main() { let test_struct = dep::test_mod::TestStruct {}; test_struct.test_func$0tion() } //- /dep.rs crate:dep pub mod test_mod { pub trait TestTrait { fn test_function(); } pub struct TestStruct {} impl TestTrait for TestStruct { fn test_function() {} } } "#, ); } #[test] fn private_trait_cross_crate() { check_assist_not_applicable( qualify_path, r#" //- /main.rs crate:main deps:dep fn main() { let test_struct = dep::test_mod::TestStruct {}; test_struct.test_meth$0od() } //- /dep.rs crate:dep pub mod test_mod { trait TestTrait { fn test_method(&self); } pub struct TestStruct {} impl TestTrait for TestStruct { fn test_method(&self) {} } } "#, ); } #[test] fn not_applicable_for_imported_trait_for_method() { check_assist_not_applicable( qualify_path, 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$0_method(); } "#, ) } #[test] fn dep_import() { check_assist( qualify_path, r" //- /lib.rs crate:dep pub struct Struct; //- /main.rs crate:main deps:dep fn main() { Struct$0 } ", r" fn main() { dep::Struct } ", ); } #[test] fn whole_segment() { // Tests that only imports whose last segment matches the identifier get suggested. check_assist( qualify_path, r" //- /lib.rs crate:dep pub mod fmt { pub trait Display {} } pub fn panic_fmt() {} //- /main.rs crate:main deps:dep struct S; impl f$0mt::Display for S {} ", r" struct S; impl dep::fmt::Display for S {} ", ); } #[test] fn macro_generated() { // Tests that macro-generated items are suggested from external crates. check_assist( qualify_path, r" //- /lib.rs crate:dep macro_rules! mac { () => { pub struct Cheese; }; } mac!(); //- /main.rs crate:main deps:dep fn main() { Cheese$0; } ", r" fn main() { dep::Cheese; } ", ); } #[test] fn casing() { // Tests that differently cased names don't interfere and we only suggest the matching one. check_assist( qualify_path, r" //- /lib.rs crate:dep pub struct FMT; pub struct fmt; //- /main.rs crate:main deps:dep fn main() { FMT$0; } ", r" fn main() { dep::FMT; } ", ); } #[test] fn keep_generic_annotations() { check_assist( qualify_path, r" //- /lib.rs crate:dep pub mod generic { pub struct Thing<'a, T>(&'a T); } //- /main.rs crate:main deps:dep fn foo() -> Thin$0g<'static, ()> {} fn main() {} ", r" fn foo() -> dep::generic::Thing<'static, ()> {} fn main() {} ", ); } #[test] fn keep_generic_annotations_leading_colon() { check_assist( qualify_path, r#" //- /lib.rs crate:dep pub mod generic { pub struct Thing<'a, T>(&'a T); } //- /main.rs crate:main deps:dep fn foo() -> Thin$0g::<'static, ()> {} fn main() {} "#, r" fn foo() -> dep::generic::Thing::<'static, ()> {} fn main() {} ", ); } #[test] fn associated_struct_const_generic() { check_assist( qualify_path, r#" mod test_mod { pub struct TestStruct {} impl TestStruct { const TEST_CONST: u8 = 42; } } fn main() { TestStruct::<()>::TEST_CONST$0 } "#, r#" mod test_mod { pub struct TestStruct {} impl TestStruct { const TEST_CONST: u8 = 42; } } fn main() { test_mod::TestStruct::<()>::TEST_CONST } "#, ); } #[test] fn associated_trait_const_generic() { check_assist( qualify_path, r#" mod test_mod { pub trait TestTrait { const TEST_CONST: u8; } pub struct TestStruct {} impl TestTrait for TestStruct { const TEST_CONST: u8 = 42; } } fn main() { test_mod::TestStruct::<()>::TEST_CONST$0 } "#, r#" mod test_mod { pub trait TestTrait { const TEST_CONST: u8; } pub struct TestStruct {} impl TestTrait for TestStruct { const TEST_CONST: u8 = 42; } } fn main() { as test_mod::TestTrait>::TEST_CONST } "#, ); } #[test] fn trait_method_generic() { check_assist( qualify_path, 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$0od::<()>() } "#, 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_mod::TestTrait::test_method::<()>(&test_struct) } "#, ); } #[test] fn works_in_derives() { check_assist( qualify_path, r#" //- minicore:derive mod foo { #[rustc_builtin_macro] pub macro Copy {} } #[derive(Copy$0)] struct Foo; "#, r#" mod foo { #[rustc_builtin_macro] pub macro Copy {} } #[derive(foo::Copy)] struct Foo; "#, ); } }