//! This module implements a reference search. //! First, the element at the cursor position must be either an `ast::Name` //! or `ast::NameRef`. If it's a `ast::NameRef`, at the classification step we //! try to resolve the direct tree parent of this element, otherwise we //! already have a definition and just need to get its HIR together with //! some information that is needed for futher steps of searching. //! After that, we collect files that might contain references and look //! for text occurrences of the identifier. If there's an `ast::NameRef` //! at the index that the match starts at and its tree parent is //! resolved to the search element definition, we get a reference. pub(crate) mod rename; use hir::Semantics; use ide_db::{ defs::{Definition, NameClass, NameRefClass}, search::SearchScope, RootDatabase, }; use syntax::{ algo::find_node_at_offset, ast::{self, NameOwner}, AstNode, SyntaxKind, SyntaxNode, TextRange, TokenAtOffset, }; use crate::{display::TryToNav, FilePosition, FileRange, NavigationTarget, RangeInfo}; pub(crate) use self::rename::rename; pub use self::rename::RenameError; pub use ide_db::search::{Reference, ReferenceAccess, ReferenceKind}; #[derive(Debug, Clone)] pub struct ReferenceSearchResult { declaration: Declaration, references: Vec, } #[derive(Debug, Clone)] pub struct Declaration { pub nav: NavigationTarget, pub kind: ReferenceKind, pub access: Option, } impl ReferenceSearchResult { pub fn declaration(&self) -> &Declaration { &self.declaration } pub fn decl_target(&self) -> &NavigationTarget { &self.declaration.nav } pub fn references(&self) -> &[Reference] { &self.references } /// Total number of references /// At least 1 since all valid references should /// Have a declaration pub fn len(&self) -> usize { self.references.len() + 1 } } // allow turning ReferenceSearchResult into an iterator // over References impl IntoIterator for ReferenceSearchResult { type Item = Reference; type IntoIter = std::vec::IntoIter; fn into_iter(mut self) -> Self::IntoIter { let mut v = Vec::with_capacity(self.len()); v.push(Reference { file_range: FileRange { file_id: self.declaration.nav.file_id, range: self.declaration.nav.focus_or_full_range(), }, kind: self.declaration.kind, access: self.declaration.access, }); v.append(&mut self.references); v.into_iter() } } pub(crate) fn find_all_refs( sema: &Semantics, position: FilePosition, search_scope: Option, ) -> Option> { let _p = profile::span("find_all_refs"); let syntax = sema.parse(position.file_id).syntax().clone(); let (opt_name, search_kind) = if let Some(name) = get_struct_def_name_for_struct_literal_search(&sema, &syntax, position) { (Some(name), ReferenceKind::StructLiteral) } else { ( sema.find_node_at_offset_with_descend::(&syntax, position.offset), ReferenceKind::Other, ) }; let RangeInfo { range, info: def } = find_name(&sema, &syntax, position, opt_name)?; let references = def .usages(sema) .set_scope(search_scope) .all() .into_iter() .filter(|r| search_kind == ReferenceKind::Other || search_kind == r.kind) .collect(); let decl_range = def.try_to_nav(sema.db)?.focus_or_full_range(); let declaration = Declaration { nav: def.try_to_nav(sema.db)?, kind: ReferenceKind::Other, access: decl_access(&def, &syntax, decl_range), }; Some(RangeInfo::new(range, ReferenceSearchResult { declaration, references })) } fn find_name( sema: &Semantics, syntax: &SyntaxNode, position: FilePosition, opt_name: Option, ) -> Option> { if let Some(name) = opt_name { let def = NameClass::classify(sema, &name)?.reference_or_definition(sema.db); let range = name.syntax().text_range(); return Some(RangeInfo::new(range, def)); } let name_ref = sema.find_node_at_offset_with_descend::(&syntax, position.offset)?; let def = NameRefClass::classify(sema, &name_ref)?.definition(sema.db); let range = name_ref.syntax().text_range(); Some(RangeInfo::new(range, def)) } fn decl_access(def: &Definition, syntax: &SyntaxNode, range: TextRange) -> Option { match def { Definition::Local(_) | Definition::Field(_) => {} _ => return None, }; let stmt = find_node_at_offset::(syntax, range.start())?; if stmt.initializer().is_some() { let pat = stmt.pat()?; if let ast::Pat::IdentPat(it) = pat { if it.mut_token().is_some() { return Some(ReferenceAccess::Write); } } } None } fn get_struct_def_name_for_struct_literal_search( sema: &Semantics, syntax: &SyntaxNode, position: FilePosition, ) -> Option { if let TokenAtOffset::Between(ref left, ref right) = syntax.token_at_offset(position.offset) { if right.kind() != SyntaxKind::L_CURLY && right.kind() != SyntaxKind::L_PAREN { return None; } if let Some(name) = sema.find_node_at_offset_with_descend::(&syntax, left.text_range().start()) { return name.syntax().ancestors().find_map(ast::Struct::cast).and_then(|l| l.name()); } if sema .find_node_at_offset_with_descend::( &syntax, left.text_range().start(), ) .is_some() { return left.ancestors().find_map(ast::Struct::cast).and_then(|l| l.name()); } } None } #[cfg(test)] mod tests { use base_db::FileId; use expect_test::{expect, Expect}; use stdx::format_to; use crate::{fixture, SearchScope}; #[test] fn test_struct_literal_after_space() { check( r#" struct Foo <|>{ a: i32, } impl Foo { fn f() -> i32 { 42 } } fn main() { let f: Foo; f = Foo {a: Foo::f()}; } "#, expect![[r#" Foo STRUCT FileId(0) 0..26 7..10 Other FileId(0) 101..104 StructLiteral "#]], ); } #[test] fn test_struct_literal_before_space() { check( r#" struct Foo<|> {} fn main() { let f: Foo; f = Foo {}; } "#, expect![[r#" Foo STRUCT FileId(0) 0..13 7..10 Other FileId(0) 41..44 Other FileId(0) 54..57 StructLiteral "#]], ); } #[test] fn test_struct_literal_with_generic_type() { check( r#" struct Foo <|>{} fn main() { let f: Foo::; f = Foo {}; } "#, expect![[r#" Foo STRUCT FileId(0) 0..16 7..10 Other FileId(0) 64..67 StructLiteral "#]], ); } #[test] fn test_struct_literal_for_tuple() { check( r#" struct Foo<|>(i32); fn main() { let f: Foo; f = Foo(1); } "#, expect![[r#" Foo STRUCT FileId(0) 0..16 7..10 Other FileId(0) 54..57 StructLiteral "#]], ); } #[test] fn test_find_all_refs_for_local() { check( r#" fn main() { let mut i = 1; let j = 1; i = i<|> + j; { i = 0; } i = 5; }"#, expect![[r#" i IDENT_PAT FileId(0) 24..25 Other Write FileId(0) 50..51 Other Write FileId(0) 54..55 Other Read FileId(0) 76..77 Other Write FileId(0) 94..95 Other Write "#]], ); } #[test] fn search_filters_by_range() { check( r#" fn foo() { let spam<|> = 92; spam + spam } fn bar() { let spam = 92; spam + spam } "#, expect![[r#" spam IDENT_PAT FileId(0) 19..23 Other FileId(0) 34..38 Other Read FileId(0) 41..45 Other Read "#]], ); } #[test] fn test_find_all_refs_for_param_inside() { check( r#" fn foo(i : u32) -> u32 { i<|> } "#, expect![[r#" i IDENT_PAT FileId(0) 7..8 Other FileId(0) 25..26 Other Read "#]], ); } #[test] fn test_find_all_refs_for_fn_param() { check( r#" fn foo(i<|> : u32) -> u32 { i } "#, expect![[r#" i IDENT_PAT FileId(0) 7..8 Other FileId(0) 25..26 Other Read "#]], ); } #[test] fn test_find_all_refs_field_name() { check( r#" //- /lib.rs struct Foo { pub spam<|>: u32, } fn main(s: Foo) { let f = s.spam; } "#, expect![[r#" spam RECORD_FIELD FileId(0) 17..30 21..25 Other FileId(0) 67..71 Other Read "#]], ); } #[test] fn test_find_all_refs_impl_item_name() { check( r#" struct Foo; impl Foo { fn f<|>(&self) { } } "#, expect![[r#" f FN FileId(0) 27..43 30..31 Other "#]], ); } #[test] fn test_find_all_refs_enum_var_name() { check( r#" enum Foo { A, B<|>, C, } "#, expect![[r#" B VARIANT FileId(0) 22..23 22..23 Other "#]], ); } #[test] fn test_find_all_refs_enum_var_field() { check( r#" enum Foo { A, B { field<|>: u8 }, C, } "#, expect![[r#" field RECORD_FIELD FileId(0) 26..35 26..31 Other "#]], ); } #[test] fn test_find_all_refs_two_modules() { check( r#" //- /lib.rs pub mod foo; pub mod bar; fn f() { let i = foo::Foo { n: 5 }; } //- /foo.rs use crate::bar; pub struct Foo { pub n: u32, } fn f() { let i = bar::Bar { n: 5 }; } //- /bar.rs use crate::foo; pub struct Bar { pub n: u32, } fn f() { let i = foo::Foo<|> { n: 5 }; } "#, expect![[r#" Foo STRUCT FileId(1) 17..51 28..31 Other FileId(0) 53..56 StructLiteral FileId(2) 79..82 StructLiteral "#]], ); } // `mod foo;` is not in the results because `foo` is an `ast::Name`. // So, there are two references: the first one is a definition of the `foo` module, // which is the whole `foo.rs`, and the second one is in `use foo::Foo`. #[test] fn test_find_all_refs_decl_module() { check( r#" //- /lib.rs mod foo<|>; use foo::Foo; fn f() { let i = Foo { n: 5 }; } //- /foo.rs pub struct Foo { pub n: u32, } "#, expect![[r#" foo SOURCE_FILE FileId(1) 0..35 Other FileId(0) 14..17 Other "#]], ); } #[test] fn test_find_all_refs_super_mod_vis() { check( r#" //- /lib.rs mod foo; //- /foo.rs mod some; use some::Foo; fn f() { let i = Foo { n: 5 }; } //- /foo/some.rs pub(super) struct Foo<|> { pub n: u32, } "#, expect![[r#" Foo STRUCT FileId(2) 0..41 18..21 Other FileId(1) 20..23 Other FileId(1) 47..50 StructLiteral "#]], ); } #[test] fn test_find_all_refs_with_scope() { let code = r#" //- /lib.rs mod foo; mod bar; pub fn quux<|>() {} //- /foo.rs fn f() { super::quux(); } //- /bar.rs fn f() { super::quux(); } "#; check_with_scope( code, None, expect![[r#" quux FN FileId(0) 19..35 26..30 Other FileId(1) 16..20 StructLiteral FileId(2) 16..20 StructLiteral "#]], ); check_with_scope( code, Some(SearchScope::single_file(FileId(2))), expect![[r#" quux FN FileId(0) 19..35 26..30 Other FileId(2) 16..20 StructLiteral "#]], ); } #[test] fn test_find_all_refs_macro_def() { check( r#" #[macro_export] macro_rules! m1<|> { () => (()) } fn foo() { m1(); m1(); } "#, expect![[r#" m1 MACRO_CALL FileId(0) 0..46 29..31 Other FileId(0) 63..65 StructLiteral FileId(0) 73..75 StructLiteral "#]], ); } #[test] fn test_basic_highlight_read_write() { check( r#" fn foo() { let mut i<|> = 0; i = i + 1; } "#, expect![[r#" i IDENT_PAT FileId(0) 23..24 Other Write FileId(0) 34..35 Other Write FileId(0) 38..39 Other Read "#]], ); } #[test] fn test_basic_highlight_field_read_write() { check( r#" struct S { f: u32, } fn foo() { let mut s = S{f: 0}; s.f<|> = 0; } "#, expect![[r#" f RECORD_FIELD FileId(0) 15..21 15..16 Other FileId(0) 55..56 Other Read FileId(0) 68..69 Other Write "#]], ); } #[test] fn test_basic_highlight_decl_no_write() { check( r#" fn foo() { let i<|>; i = 1; } "#, expect![[r#" i IDENT_PAT FileId(0) 19..20 Other FileId(0) 26..27 Other Write "#]], ); } #[test] fn test_find_struct_function_refs_outside_module() { check( r#" mod foo { pub struct Foo; impl Foo { pub fn new<|>() -> Foo { Foo } } } fn main() { let _f = foo::Foo::new(); } "#, expect![[r#" new FN FileId(0) 54..81 61..64 Other FileId(0) 126..129 StructLiteral "#]], ); } #[test] fn test_find_all_refs_nested_module() { check( r#" //- /lib.rs mod foo { mod bar; } fn f<|>() {} //- /foo/bar.rs use crate::f; fn g() { f(); } "#, expect![[r#" f FN FileId(0) 22..31 25..26 Other FileId(1) 11..12 Other FileId(1) 24..25 StructLiteral "#]], ); } #[test] fn test_find_all_refs_struct_pat() { check( r#" struct S { field<|>: u8, } fn f(s: S) { match s { S { field } => {} } } "#, expect![[r#" field RECORD_FIELD FileId(0) 15..24 15..20 Other FileId(0) 68..73 FieldShorthandForField Read "#]], ); } #[test] fn test_find_all_refs_enum_var_pat() { check( r#" enum En { Variant { field<|>: u8, } } fn f(e: En) { match e { En::Variant { field } => {} } } "#, expect![[r#" field RECORD_FIELD FileId(0) 32..41 32..37 Other FileId(0) 102..107 FieldShorthandForField Read "#]], ); } #[test] fn test_find_all_refs_enum_var_privacy() { check( r#" mod m { pub enum En { Variant { field<|>: u8, } } } fn f() -> m::En { m::En::Variant { field: 0 } } "#, expect![[r#" field RECORD_FIELD FileId(0) 56..65 56..61 Other FileId(0) 125..130 Other Read "#]], ); } fn check(ra_fixture: &str, expect: Expect) { check_with_scope(ra_fixture, None, expect) } fn check_with_scope(ra_fixture: &str, search_scope: Option, expect: Expect) { let (analysis, pos) = fixture::position(ra_fixture); let refs = analysis.find_all_refs(pos, search_scope).unwrap().unwrap(); let mut actual = String::new(); { let decl = refs.declaration; format_to!(actual, "{} {:?}", decl.nav.debug_render(), decl.kind); if let Some(access) = decl.access { format_to!(actual, " {:?}", access) } actual += "\n\n"; } for r in &refs.references { format_to!(actual, "{:?} {:?} {:?}", r.file_range.file_id, r.file_range.range, r.kind); if let Some(access) = r.access { format_to!(actual, " {:?}", access); } actual += "\n"; } expect.assert_eq(&actual) } }