//! FIXME: write short doc here use std::fmt; use either::Either; use hir::{AssocItem, Documentation, FieldSource, HasAttrs, HasSource, InFile, ModuleSource}; use ide_db::{ base_db::{FileId, FileRange, SourceDatabase}, symbol_index::FileSymbolKind, }; use ide_db::{defs::Definition, RootDatabase}; use syntax::{ ast::{self, NameOwner}, match_ast, AstNode, SmolStr, TextRange, }; use crate::FileSymbol; use super::short_label::ShortLabel; #[derive(Debug, Clone, Copy, PartialEq, Eq, Hash, PartialOrd, Ord)] pub enum SymbolKind { Module, Impl, Field, TypeParam, ConstParam, LifetimeParam, ValueParam, SelfParam, Local, Label, Function, Const, Static, Struct, Enum, Variant, Union, TypeAlias, Trait, Macro, } /// `NavigationTarget` represents and element in the editor's UI which you can /// click on to navigate to a particular piece of code. /// /// Typically, a `NavigationTarget` corresponds to some element in the source /// code, like a function or a struct, but this is not strictly required. #[derive(Clone, PartialEq, Eq, Hash)] pub struct NavigationTarget { pub file_id: FileId, /// Range which encompasses the whole element. /// /// Should include body, doc comments, attributes, etc. /// /// Clients should use this range to answer "is the cursor inside the /// element?" question. pub full_range: TextRange, /// A "most interesting" range withing the `full_range`. /// /// Typically, `full_range` is the whole syntax node, including doc /// comments, and `focus_range` is the range of the identifier. "Most /// interesting" range within the full range, typically the range of /// identifier. /// /// Clients should place the cursor on this range when navigating to this target. pub focus_range: Option, pub name: SmolStr, pub kind: Option, pub container_name: Option, pub description: Option, pub docs: Option, } impl fmt::Debug for NavigationTarget { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { let mut f = f.debug_struct("NavigationTarget"); macro_rules! opt { ($($name:ident)*) => {$( if let Some(it) = &self.$name { f.field(stringify!($name), it); } )*} } f.field("file_id", &self.file_id).field("full_range", &self.full_range); opt!(focus_range); f.field("name", &self.name); opt!(kind container_name description docs); f.finish() } } pub(crate) trait ToNav { fn to_nav(&self, db: &RootDatabase) -> NavigationTarget; } pub(crate) trait TryToNav { fn try_to_nav(&self, db: &RootDatabase) -> Option; } impl NavigationTarget { pub fn focus_or_full_range(&self) -> TextRange { self.focus_range.unwrap_or(self.full_range) } pub(crate) fn from_module_to_decl(db: &RootDatabase, module: hir::Module) -> NavigationTarget { let name = module.name(db).map(|it| it.to_string().into()).unwrap_or_default(); if let Some(src) = module.declaration_source(db) { let node = src.as_ref().map(|it| it.syntax()); let frange = node.original_file_range(db); let mut res = NavigationTarget::from_syntax( frange.file_id, name, None, frange.range, SymbolKind::Module, ); res.docs = module.attrs(db).docs(); res.description = src.value.short_label(); return res; } module.to_nav(db) } #[cfg(test)] pub(crate) fn assert_match(&self, expected: &str) { let actual = self.debug_render(); test_utils::assert_eq_text!(expected.trim(), actual.trim(),); } #[cfg(test)] pub(crate) fn debug_render(&self) -> String { let mut buf = format!( "{} {:?} {:?} {:?}", self.name, self.kind.unwrap(), self.file_id, self.full_range ); if let Some(focus_range) = self.focus_range { buf.push_str(&format!(" {:?}", focus_range)) } if let Some(container_name) = &self.container_name { buf.push_str(&format!(" {}", container_name)) } buf } /// Allows `NavigationTarget` to be created from a `NameOwner` pub(crate) fn from_named( db: &RootDatabase, node: InFile<&dyn ast::NameOwner>, kind: SymbolKind, ) -> NavigationTarget { let name = node.value.name().map(|it| it.text().clone()).unwrap_or_else(|| SmolStr::new("_")); let focus_range = node.value.name().map(|it| node.with_value(it.syntax()).original_file_range(db).range); let frange = node.map(|it| it.syntax()).original_file_range(db); NavigationTarget::from_syntax(frange.file_id, name, focus_range, frange.range, kind) } fn from_syntax( file_id: FileId, name: SmolStr, focus_range: Option, full_range: TextRange, kind: SymbolKind, ) -> NavigationTarget { NavigationTarget { file_id, name, kind: Some(kind), full_range, focus_range, container_name: None, description: None, docs: None, } } } impl ToNav for FileSymbol { fn to_nav(&self, db: &RootDatabase) -> NavigationTarget { NavigationTarget { file_id: self.file_id, name: self.name.clone(), kind: Some(match self.kind { FileSymbolKind::Function => SymbolKind::Function, FileSymbolKind::Struct => SymbolKind::Struct, FileSymbolKind::Enum => SymbolKind::Enum, FileSymbolKind::Trait => SymbolKind::Trait, FileSymbolKind::Module => SymbolKind::Module, FileSymbolKind::TypeAlias => SymbolKind::TypeAlias, FileSymbolKind::Const => SymbolKind::Const, FileSymbolKind::Static => SymbolKind::Static, FileSymbolKind::Macro => SymbolKind::Macro, }), full_range: self.range, focus_range: self.name_range, container_name: self.container_name.clone(), description: description_from_symbol(db, self), docs: None, } } } impl TryToNav for Definition { fn try_to_nav(&self, db: &RootDatabase) -> Option { match self { Definition::Macro(it) => { // FIXME: Currently proc-macro do not have ast-node, // such that it does not have source // more discussion: https://github.com/rust-analyzer/rust-analyzer/issues/6913 if it.is_proc_macro() { return None; } Some(it.to_nav(db)) } Definition::Field(it) => Some(it.to_nav(db)), Definition::ModuleDef(it) => it.try_to_nav(db), Definition::SelfType(it) => Some(it.to_nav(db)), Definition::Local(it) => Some(it.to_nav(db)), Definition::TypeParam(it) => Some(it.to_nav(db)), Definition::LifetimeParam(it) => Some(it.to_nav(db)), Definition::Label(it) => Some(it.to_nav(db)), Definition::ConstParam(it) => Some(it.to_nav(db)), } } } impl TryToNav for hir::ModuleDef { fn try_to_nav(&self, db: &RootDatabase) -> Option { let res = match self { hir::ModuleDef::Module(it) => it.to_nav(db), hir::ModuleDef::Function(it) => it.to_nav(db), hir::ModuleDef::Adt(it) => it.to_nav(db), hir::ModuleDef::Variant(it) => it.to_nav(db), hir::ModuleDef::Const(it) => it.to_nav(db), hir::ModuleDef::Static(it) => it.to_nav(db), hir::ModuleDef::Trait(it) => it.to_nav(db), hir::ModuleDef::TypeAlias(it) => it.to_nav(db), hir::ModuleDef::BuiltinType(_) => return None, }; Some(res) } } pub(crate) trait ToNavFromAst { const KIND: SymbolKind; } impl ToNavFromAst for hir::Function { const KIND: SymbolKind = SymbolKind::Function; } impl ToNavFromAst for hir::Const { const KIND: SymbolKind = SymbolKind::Const; } impl ToNavFromAst for hir::Static { const KIND: SymbolKind = SymbolKind::Static; } impl ToNavFromAst for hir::Struct { const KIND: SymbolKind = SymbolKind::Struct; } impl ToNavFromAst for hir::Enum { const KIND: SymbolKind = SymbolKind::Enum; } impl ToNavFromAst for hir::Variant { const KIND: SymbolKind = SymbolKind::Variant; } impl ToNavFromAst for hir::Union { const KIND: SymbolKind = SymbolKind::Union; } impl ToNavFromAst for hir::TypeAlias { const KIND: SymbolKind = SymbolKind::TypeAlias; } impl ToNavFromAst for hir::Trait { const KIND: SymbolKind = SymbolKind::Trait; } impl ToNav for D where D: HasSource + ToNavFromAst + Copy + HasAttrs, D::Ast: ast::NameOwner + ShortLabel, { fn to_nav(&self, db: &RootDatabase) -> NavigationTarget { let src = self.source_old(db); let mut res = NavigationTarget::from_named( db, src.as_ref().map(|it| it as &dyn ast::NameOwner), D::KIND, ); res.docs = self.docs(db); res.description = src.value.short_label(); res } } impl ToNav for hir::Module { fn to_nav(&self, db: &RootDatabase) -> NavigationTarget { let src = self.definition_source(db); let name = self.name(db).map(|it| it.to_string().into()).unwrap_or_default(); let (syntax, focus) = match &src.value { ModuleSource::SourceFile(node) => (node.syntax(), None), ModuleSource::Module(node) => { (node.syntax(), node.name().map(|it| it.syntax().text_range())) } }; let frange = src.with_value(syntax).original_file_range(db); NavigationTarget::from_syntax(frange.file_id, name, focus, frange.range, SymbolKind::Module) } } impl ToNav for hir::Impl { fn to_nav(&self, db: &RootDatabase) -> NavigationTarget { let src = self.source_old(db); let derive_attr = self.is_builtin_derive(db); let frange = if let Some(item) = &derive_attr { item.syntax().original_file_range(db) } else { src.as_ref().map(|it| it.syntax()).original_file_range(db) }; let focus_range = if derive_attr.is_some() { None } else { src.value.self_ty().map(|ty| src.with_value(ty.syntax()).original_file_range(db).range) }; NavigationTarget::from_syntax( frange.file_id, "impl".into(), focus_range, frange.range, SymbolKind::Impl, ) } } impl ToNav for hir::Field { fn to_nav(&self, db: &RootDatabase) -> NavigationTarget { let src = self.source_old(db); match &src.value { FieldSource::Named(it) => { let mut res = NavigationTarget::from_named(db, src.with_value(it), SymbolKind::Field); res.docs = self.docs(db); res.description = it.short_label(); res } FieldSource::Pos(it) => { let frange = src.with_value(it.syntax()).original_file_range(db); NavigationTarget::from_syntax( frange.file_id, "".into(), None, frange.range, SymbolKind::Field, ) } } } } impl ToNav for hir::MacroDef { fn to_nav(&self, db: &RootDatabase) -> NavigationTarget { let src = self.source_old(db); log::debug!("nav target {:#?}", src.value.syntax()); let mut res = NavigationTarget::from_named( db, src.as_ref().map(|it| it as &dyn ast::NameOwner), SymbolKind::Macro, ); res.docs = self.docs(db); res } } impl ToNav for hir::Adt { fn to_nav(&self, db: &RootDatabase) -> NavigationTarget { match self { hir::Adt::Struct(it) => it.to_nav(db), hir::Adt::Union(it) => it.to_nav(db), hir::Adt::Enum(it) => it.to_nav(db), } } } impl ToNav for hir::AssocItem { fn to_nav(&self, db: &RootDatabase) -> NavigationTarget { match self { AssocItem::Function(it) => it.to_nav(db), AssocItem::Const(it) => it.to_nav(db), AssocItem::TypeAlias(it) => it.to_nav(db), } } } impl ToNav for hir::Local { fn to_nav(&self, db: &RootDatabase) -> NavigationTarget { let src = self.source(db); let node = match &src.value { Either::Left(bind_pat) => { bind_pat.name().map_or_else(|| bind_pat.syntax().clone(), |it| it.syntax().clone()) } Either::Right(it) => it.syntax().clone(), }; let full_range = src.with_value(&node).original_file_range(db); let name = match self.name(db) { Some(it) => it.to_string().into(), None => "".into(), }; let kind = if self.is_param(db) { SymbolKind::ValueParam } else { SymbolKind::Local }; NavigationTarget { file_id: full_range.file_id, name, kind: Some(kind), full_range: full_range.range, focus_range: None, container_name: None, description: None, docs: None, } } } impl ToNav for hir::Label { fn to_nav(&self, db: &RootDatabase) -> NavigationTarget { let src = self.source(db); let node = src.value.syntax(); let FileRange { file_id, range } = src.with_value(node).original_file_range(db); let focus_range = src.value.lifetime().and_then(|lt| lt.lifetime_ident_token()).map(|lt| lt.text_range()); let name = self.name(db).to_string().into(); NavigationTarget { file_id, name, kind: Some(SymbolKind::Label), full_range: range, focus_range, container_name: None, description: None, docs: None, } } } impl ToNav for hir::TypeParam { fn to_nav(&self, db: &RootDatabase) -> NavigationTarget { let src = self.source_old(db); let full_range = match &src.value { Either::Left(it) => it.syntax().text_range(), Either::Right(it) => it.syntax().text_range(), }; let focus_range = match &src.value { Either::Left(_) => None, Either::Right(it) => it.name().map(|it| it.syntax().text_range()), }; NavigationTarget { file_id: src.file_id.original_file(db), name: self.name(db).to_string().into(), kind: Some(SymbolKind::TypeParam), full_range, focus_range, container_name: None, description: None, docs: None, } } } impl ToNav for hir::LifetimeParam { fn to_nav(&self, db: &RootDatabase) -> NavigationTarget { let src = self.source_old(db); let full_range = src.value.syntax().text_range(); NavigationTarget { file_id: src.file_id.original_file(db), name: self.name(db).to_string().into(), kind: Some(SymbolKind::LifetimeParam), full_range, focus_range: Some(full_range), container_name: None, description: None, docs: None, } } } impl ToNav for hir::ConstParam { fn to_nav(&self, db: &RootDatabase) -> NavigationTarget { let src = self.source(db); let full_range = src.value.syntax().text_range(); NavigationTarget { file_id: src.file_id.original_file(db), name: self.name(db).to_string().into(), kind: Some(SymbolKind::ConstParam), full_range, focus_range: src.value.name().map(|n| n.syntax().text_range()), container_name: None, description: None, docs: None, } } } /// Get a description of a symbol. /// /// e.g. `struct Name`, `enum Name`, `fn Name` pub(crate) fn description_from_symbol(db: &RootDatabase, symbol: &FileSymbol) -> Option { let parse = db.parse(symbol.file_id); let node = symbol.ptr.to_node(parse.tree().syntax()); match_ast! { match node { ast::Fn(it) => it.short_label(), ast::Struct(it) => it.short_label(), ast::Enum(it) => it.short_label(), ast::Trait(it) => it.short_label(), ast::Module(it) => it.short_label(), ast::TypeAlias(it) => it.short_label(), ast::Const(it) => it.short_label(), ast::Static(it) => it.short_label(), ast::RecordField(it) => it.short_label(), ast::Variant(it) => it.short_label(), _ => None, } } } #[cfg(test)] mod tests { use expect_test::expect; use crate::{fixture, Query}; #[test] fn test_nav_for_symbol() { let (analysis, _) = fixture::file( r#" enum FooInner { } fn foo() { enum FooInner { } } "#, ); let navs = analysis.symbol_search(Query::new("FooInner".to_string())).unwrap(); expect![[r#" [ NavigationTarget { file_id: FileId( 0, ), full_range: 0..17, focus_range: 5..13, name: "FooInner", kind: Enum, description: "enum FooInner", }, NavigationTarget { file_id: FileId( 0, ), full_range: 29..46, focus_range: 34..42, name: "FooInner", kind: Enum, container_name: "foo", description: "enum FooInner", }, ] "#]] .assert_debug_eq(&navs); } #[test] fn test_world_symbols_are_case_sensitive() { let (analysis, _) = fixture::file( r#" fn foo() {} struct Foo; "#, ); let navs = analysis.symbol_search(Query::new("foo".to_string())).unwrap(); assert_eq!(navs.len(), 2) } }