src/tools/rust-analyzer/crates/hir-def/src/body/scope.rs - toolchain/rustc - Git at Google

 //! Name resolution for expressions.
 use hir_expand::name::Name;
 use la_arena::{Arena, ArenaMap, Idx, IdxRange, RawIdx};
 use triomphe::Arc;

 use crate::{
     body::Body,
     db::DefDatabase,
     hir::{Binding, BindingId, Expr, ExprId, LabelId, Pat, PatId, Statement},
     BlockId, DefWithBodyId,
 };

 pub type ScopeId = Idx<ScopeData>;

 #[derive(Debug, PartialEq, Eq)]
 pub struct ExprScopes {
     scopes: Arena<ScopeData>,
     scope_entries: Arena<ScopeEntry>,
     scope_by_expr: ArenaMap<ExprId, ScopeId>,
 }

 #[derive(Debug, PartialEq, Eq)]
 pub struct ScopeEntry {
     name: Name,
     binding: BindingId,
 }

 impl ScopeEntry {
     pub fn name(&self) -> &Name {
         &self.name
     }

     pub fn binding(&self) -> BindingId {
         self.binding
     }
 }

 #[derive(Debug, PartialEq, Eq)]
 pub struct ScopeData {
     parent: Option<ScopeId>,
     block: Option<BlockId>,
     label: Option<(LabelId, Name)>,
     entries: IdxRange<ScopeEntry>,
 }

 impl ExprScopes {
     pub(crate) fn expr_scopes_query(db: &dyn DefDatabase, def: DefWithBodyId) -> Arc<ExprScopes> {
         let body = db.body(def);
         let mut scopes = ExprScopes::new(&body);
         scopes.shrink_to_fit();
         Arc::new(scopes)
     }

     pub fn entries(&self, scope: ScopeId) -> &[ScopeEntry] {
         &self.scope_entries[self.scopes[scope].entries.clone()]
     }

     /// If `scope` refers to a block expression scope, returns the corresponding `BlockId`.
     pub fn block(&self, scope: ScopeId) -> Option<BlockId> {
         self.scopes[scope].block
     }

     /// If `scope` refers to a labeled expression scope, returns the corresponding `Label`.
     pub fn label(&self, scope: ScopeId) -> Option<(LabelId, Name)> {
         self.scopes[scope].label.clone()
     }

     /// Returns the scopes in ascending order.
     pub fn scope_chain(&self, scope: Option<ScopeId>) -> impl Iterator<Item = ScopeId> + '_ {
         std::iter::successors(scope, move |&scope| self.scopes[scope].parent)
     }

     pub fn resolve_name_in_scope(&self, scope: ScopeId, name: &Name) -> Option<&ScopeEntry> {
         self.scope_chain(Some(scope))
             .find_map(|scope| self.entries(scope).iter().find(|it| it.name == *name))
     }

     pub fn scope_for(&self, expr: ExprId) -> Option<ScopeId> {
         self.scope_by_expr.get(expr).copied()
     }

     pub fn scope_by_expr(&self) -> &ArenaMap<ExprId, ScopeId> {
         &self.scope_by_expr
     }
 }

 fn empty_entries(idx: usize) -> IdxRange<ScopeEntry> {
     IdxRange::new(Idx::from_raw(RawIdx::from(idx as u32))..Idx::from_raw(RawIdx::from(idx as u32)))
 }

 impl ExprScopes {
     fn new(body: &Body) -> ExprScopes {
         let mut scopes = ExprScopes {
             scopes: Arena::default(),
             scope_entries: Arena::default(),
             scope_by_expr: ArenaMap::with_capacity(body.exprs.len()),
         };
         let mut root = scopes.root_scope();
         scopes.add_params_bindings(body, root, &body.params);
         compute_expr_scopes(body.body_expr, body, &mut scopes, &mut root);
         scopes
     }

     fn root_scope(&mut self) -> ScopeId {
         self.scopes.alloc(ScopeData {
             parent: None,
             block: None,
             label: None,
             entries: empty_entries(self.scope_entries.len()),
         })
     }

     fn new_scope(&mut self, parent: ScopeId) -> ScopeId {
         self.scopes.alloc(ScopeData {
             parent: Some(parent),
             block: None,
             label: None,
             entries: empty_entries(self.scope_entries.len()),
         })
     }

     fn new_labeled_scope(&mut self, parent: ScopeId, label: Option<(LabelId, Name)>) -> ScopeId {
         self.scopes.alloc(ScopeData {
             parent: Some(parent),
             block: None,
             label,
             entries: empty_entries(self.scope_entries.len()),
         })
     }

     fn new_block_scope(
         &mut self,
         parent: ScopeId,
         block: Option<BlockId>,
         label: Option<(LabelId, Name)>,
     ) -> ScopeId {
         self.scopes.alloc(ScopeData {
             parent: Some(parent),
             block,
             label,
             entries: empty_entries(self.scope_entries.len()),
         })
     }

     fn add_bindings(&mut self, body: &Body, scope: ScopeId, binding: BindingId) {
         let Binding { name, .. } = &body.bindings[binding];
         let entry = self.scope_entries.alloc(ScopeEntry { name: name.clone(), binding });
         self.scopes[scope].entries =
             IdxRange::new_inclusive(self.scopes[scope].entries.start()..=entry);
     }

     fn add_pat_bindings(&mut self, body: &Body, scope: ScopeId, pat: PatId) {
         let pattern = &body[pat];
         if let Pat::Bind { id, .. } = pattern {
             self.add_bindings(body, scope, *id);
         }

         pattern.walk_child_pats(|pat| self.add_pat_bindings(body, scope, pat));
     }

     fn add_params_bindings(&mut self, body: &Body, scope: ScopeId, params: &[PatId]) {
         params.iter().for_each(|pat| self.add_pat_bindings(body, scope, *pat));
     }

     fn set_scope(&mut self, node: ExprId, scope: ScopeId) {
         self.scope_by_expr.insert(node, scope);
     }

     fn shrink_to_fit(&mut self) {
         let ExprScopes { scopes, scope_entries, scope_by_expr } = self;
         scopes.shrink_to_fit();
         scope_entries.shrink_to_fit();
         scope_by_expr.shrink_to_fit();
     }
 }

 fn compute_block_scopes(
     statements: &[Statement],
     tail: Option<ExprId>,
     body: &Body,
     scopes: &mut ExprScopes,
     scope: &mut ScopeId,
 ) {
     for stmt in statements {
         match stmt {
             Statement::Let { pat, initializer, else_branch, .. } => {
                 if let Some(expr) = initializer {
                     compute_expr_scopes(*expr, body, scopes, scope);
                 }
                 if let Some(expr) = else_branch {
                     compute_expr_scopes(*expr, body, scopes, scope);
                 }

                 *scope = scopes.new_scope(*scope);
                 scopes.add_pat_bindings(body, *scope, *pat);
             }
             Statement::Expr { expr, .. } => {
                 compute_expr_scopes(*expr, body, scopes, scope);
             }
         }
     }
     if let Some(expr) = tail {
         compute_expr_scopes(expr, body, scopes, scope);
     }
 }

 fn compute_expr_scopes(expr: ExprId, body: &Body, scopes: &mut ExprScopes, scope: &mut ScopeId) {
     let make_label =
         |label: &Option<LabelId>| label.map(|label| (label, body.labels[label].name.clone()));

     scopes.set_scope(expr, *scope);
     match &body[expr] {
         Expr::Block { statements, tail, id, label } => {
             let mut scope = scopes.new_block_scope(*scope, *id, make_label(label));
             // Overwrite the old scope for the block expr, so that every block scope can be found
             // via the block itself (important for blocks that only contain items, no expressions).
             scopes.set_scope(expr, scope);
             compute_block_scopes(statements, *tail, body, scopes, &mut scope);
         }
         Expr::Const(_) => {
             // FIXME: This is broken.
         }
         Expr::Unsafe { id, statements, tail } | Expr::Async { id, statements, tail } => {
             let mut scope = scopes.new_block_scope(*scope, *id, None);
             // Overwrite the old scope for the block expr, so that every block scope can be found
             // via the block itself (important for blocks that only contain items, no expressions).
             scopes.set_scope(expr, scope);
             compute_block_scopes(statements, *tail, body, scopes, &mut scope);
         }
         Expr::Loop { body: body_expr, label } => {
             let mut scope = scopes.new_labeled_scope(*scope, make_label(label));
             compute_expr_scopes(*body_expr, body, scopes, &mut scope);
         }
         Expr::Closure { args, body: body_expr, .. } => {
             let mut scope = scopes.new_scope(*scope);
             scopes.add_params_bindings(body, scope, args);
             compute_expr_scopes(*body_expr, body, scopes, &mut scope);
         }
         Expr::Match { expr, arms } => {
             compute_expr_scopes(*expr, body, scopes, scope);
             for arm in arms.iter() {
                 let mut scope = scopes.new_scope(*scope);
                 scopes.add_pat_bindings(body, scope, arm.pat);
                 if let Some(guard) = arm.guard {
                     scope = scopes.new_scope(scope);
                     compute_expr_scopes(guard, body, scopes, &mut scope);
                 }
                 compute_expr_scopes(arm.expr, body, scopes, &mut scope);
             }
         }
         &Expr::If { condition, then_branch, else_branch } => {
             let mut then_branch_scope = scopes.new_scope(*scope);
             compute_expr_scopes(condition, body, scopes, &mut then_branch_scope);
             compute_expr_scopes(then_branch, body, scopes, &mut then_branch_scope);
             if let Some(else_branch) = else_branch {
                 compute_expr_scopes(else_branch, body, scopes, scope);
             }
         }
         &Expr::Let { pat, expr } => {
             compute_expr_scopes(expr, body, scopes, scope);
             *scope = scopes.new_scope(*scope);
             scopes.add_pat_bindings(body, *scope, pat);
         }
         e => e.walk_child_exprs(|e| compute_expr_scopes(e, body, scopes, scope)),
     };
 }

 #[cfg(test)]
 mod tests {
     use base_db::{FileId, SourceDatabase};
     use hir_expand::{name::AsName, InFile};
     use syntax::{algo::find_node_at_offset, ast, AstNode};
     use test_fixture::WithFixture;
     use test_utils::{assert_eq_text, extract_offset};

     use crate::{db::DefDatabase, test_db::TestDB, FunctionId, ModuleDefId};

     fn find_function(db: &TestDB, file_id: FileId) -> FunctionId {
         let krate = db.test_crate();
         let crate_def_map = db.crate_def_map(krate);

         let module = crate_def_map.modules_for_file(file_id).next().unwrap();
         let (_, def) = crate_def_map[module].scope.entries().next().unwrap();
         match def.take_values().unwrap() {
             ModuleDefId::FunctionId(it) => it,
             _ => panic!(),
         }
     }

     fn do_check(ra_fixture: &str, expected: &[&str]) {
         let (offset, code) = extract_offset(ra_fixture);
         let code = {
             let mut buf = String::new();
             let off: usize = offset.into();
             buf.push_str(&code[..off]);
             buf.push_str("$0marker");
             buf.push_str(&code[off..]);
             buf
         };

         let (db, position) = TestDB::with_position(&code);
         let file_id = position.file_id;
         let offset = position.offset;

         let file_syntax = db.parse(file_id).syntax_node();
         let marker: ast::PathExpr = find_node_at_offset(&file_syntax, offset).unwrap();
         let function = find_function(&db, file_id);

         let scopes = db.expr_scopes(function.into());
         let (_body, source_map) = db.body_with_source_map(function.into());

         let expr_id = source_map
             .node_expr(InFile { file_id: file_id.into(), value: &marker.into() })
             .unwrap();
         let scope = scopes.scope_for(expr_id);

         let actual = scopes
             .scope_chain(scope)
             .flat_map(|scope| scopes.entries(scope))
             .map(|it| it.name().to_smol_str())
             .collect::<Vec<_>>()
             .join("\n");
         let expected = expected.join("\n");
         assert_eq_text!(&expected, &actual);
     }

     #[test]
     fn test_lambda_scope() {
         do_check(
             r"
             fn quux(foo: i32) {
                 let f = |bar, baz: i32| {
                     $0
                 };
             }",
             &["bar", "baz", "foo"],
         );
     }

     #[test]
     fn test_call_scope() {
         do_check(
             r"
             fn quux() {
                 f(|x| $0 );
             }",
             &["x"],
         );
     }

     #[test]
     fn test_method_call_scope() {
         do_check(
             r"
             fn quux() {
                 z.f(|x| $0 );
             }",
             &["x"],
         );
     }

     #[test]
     fn test_loop_scope() {
         do_check(
             r"
             fn quux() {
                 loop {
                     let x = ();
                     $0
                 };
             }",
             &["x"],
         );
     }

     #[test]
     fn test_match() {
         do_check(
             r"
             fn quux() {
                 match () {
                     Some(x) => {
                         $0
                     }
                 };
             }",
             &["x"],
         );
     }

     #[test]
     fn test_shadow_variable() {
         do_check(
             r"
             fn foo(x: String) {
                 let x : &str = &x$0;
             }",
             &["x"],
         );
     }

     #[test]
     fn test_bindings_after_at() {
         do_check(
             r"
 fn foo() {
     match Some(()) {
         opt @ Some(unit) => {
             $0
         }
         _ => {}
     }
 }
 ",
             &["opt", "unit"],
         );
     }

     #[test]
     fn macro_inner_item() {
         do_check(
             r"
             macro_rules! mac {
                 () => {{
                     fn inner() {}
                     inner();
                 }};
             }

             fn foo() {
                 mac!();
                 $0
             }
         ",
             &[],
         );
     }

     #[test]
     fn broken_inner_item() {
         do_check(
             r"
             fn foo() {
                 trait {}
                 $0
             }
         ",
             &[],
         );
     }

     fn do_check_local_name(ra_fixture: &str, expected_offset: u32) {
         let (db, position) = TestDB::with_position(ra_fixture);
         let file_id = position.file_id;
         let offset = position.offset;

         let file = db.parse(file_id).ok().unwrap();
         let expected_name = find_node_at_offset::<ast::Name>(file.syntax(), expected_offset.into())
             .expect("failed to find a name at the target offset");
         let name_ref: ast::NameRef = find_node_at_offset(file.syntax(), offset).unwrap();

         let function = find_function(&db, file_id);

         let scopes = db.expr_scopes(function.into());
         let (body, source_map) = db.body_with_source_map(function.into());

         let expr_scope = {
             let expr_ast = name_ref.syntax().ancestors().find_map(ast::Expr::cast).unwrap();
             let expr_id =
                 source_map.node_expr(InFile { file_id: file_id.into(), value: &expr_ast }).unwrap();
             scopes.scope_for(expr_id).unwrap()
         };

         let resolved = scopes.resolve_name_in_scope(expr_scope, &name_ref.as_name()).unwrap();
         let pat_src = source_map
             .pat_syntax(*body.bindings[resolved.binding()].definitions.first().unwrap())
             .unwrap();

         let local_name = pat_src.value.syntax_node_ptr().to_node(file.syntax());
         assert_eq!(local_name.text_range(), expected_name.syntax().text_range());
     }

     #[test]
     fn test_resolve_local_name() {
         do_check_local_name(
             r#"
 fn foo(x: i32, y: u32) {
     {
         let z = x * 2;
     }
     {
         let t = x$0 * 3;
     }
 }
 "#,
             7,
         );
     }

     #[test]
     fn test_resolve_local_name_declaration() {
         do_check_local_name(
             r#"
 fn foo(x: String) {
     let x : &str = &x$0;
 }
 "#,
             7,
         );
     }

     #[test]
     fn test_resolve_local_name_shadow() {
         do_check_local_name(
             r"
 fn foo(x: String) {
     let x : &str = &x;
     x$0
 }
 ",
             28,
         );
     }

     #[test]
     fn ref_patterns_contribute_bindings() {
         do_check_local_name(
             r"
 fn foo() {
     if let Some(&from) = bar() {
         from$0;
     }
 }
 ",
             28,
         );
     }

     #[test]
     fn while_let_adds_binding() {
         do_check_local_name(
             r#"
 fn test() {
     let foo: Option<f32> = None;
     while let Option::Some(spam) = foo {
         spam$0
     }
 }
 "#,
             75,
         );
         do_check_local_name(
             r#"
 fn test() {
     let foo: Option<f32> = None;
     while (((let Option::Some(_) = foo))) && let Option::Some(spam) = foo {
         spam$0
     }
 }
 "#,
             107,
         );
     }

     #[test]
     fn match_guard_if_let() {
         do_check_local_name(
             r#"
 fn test() {
     let foo: Option<f32> = None;
     match foo {
         _ if let Option::Some(spam) = foo => spam$0,
     }
 }
 "#,
             93,
         );
     }

     #[test]
     fn let_chains_can_reference_previous_lets() {
         do_check_local_name(
             r#"
 fn test() {
     let foo: Option<i32> = None;
     if let Some(spam) = foo && spa$0m > 1 && let Some(spam) = foo && spam > 1 {}
 }
 "#,
             61,
         );
         do_check_local_name(
             r#"
 fn test() {
     let foo: Option<i32> = None;
     if let Some(spam) = foo && spam > 1 && let Some(spam) = foo && sp$0am > 1 {}
 }
 "#,
             100,
         );
     }
 }
	//! Name resolution for expressions.
	use hir_expand::name::Name;
	use la_arena::{Arena, ArenaMap, Idx, IdxRange, RawIdx};
	use triomphe::Arc;

	use crate::{
	body::Body,
	db::DefDatabase,
	hir::{Binding, BindingId, Expr, ExprId, LabelId, Pat, PatId, Statement},
	BlockId, DefWithBodyId,
	};

	pub type ScopeId = Idx<ScopeData>;

	#[derive(Debug, PartialEq, Eq)]
	pub struct ExprScopes {
	scopes: Arena<ScopeData>,
	scope_entries: Arena<ScopeEntry>,
	scope_by_expr: ArenaMap<ExprId, ScopeId>,
	}

	#[derive(Debug, PartialEq, Eq)]
	pub struct ScopeEntry {
	name: Name,
	binding: BindingId,
	}

	impl ScopeEntry {
	pub fn name(&self) -> &Name {
	&self.name
	}

	pub fn binding(&self) -> BindingId {
	self.binding
	}
	}

	#[derive(Debug, PartialEq, Eq)]
	pub struct ScopeData {
	parent: Option<ScopeId>,
	block: Option<BlockId>,
	label: Option<(LabelId, Name)>,
	entries: IdxRange<ScopeEntry>,
	}

	impl ExprScopes {
	pub(crate) fn expr_scopes_query(db: &dyn DefDatabase, def: DefWithBodyId) -> Arc<ExprScopes> {
	let body = db.body(def);
	let mut scopes = ExprScopes::new(&body);
	scopes.shrink_to_fit();
	Arc::new(scopes)
	}

	pub fn entries(&self, scope: ScopeId) -> &[ScopeEntry] {
	&self.scope_entries[self.scopes[scope].entries.clone()]
	}

	/// If `scope` refers to a block expression scope, returns the corresponding `BlockId`.
	pub fn block(&self, scope: ScopeId) -> Option<BlockId> {
	self.scopes[scope].block
	}

	/// If `scope` refers to a labeled expression scope, returns the corresponding `Label`.
	pub fn label(&self, scope: ScopeId) -> Option<(LabelId, Name)> {
	self.scopes[scope].label.clone()
	}

	/// Returns the scopes in ascending order.
	pub fn scope_chain(&self, scope: Option<ScopeId>) -> impl Iterator<Item = ScopeId> + '_ {
	std::iter::successors(scope, move \|&scope\| self.scopes[scope].parent)
	}

	pub fn resolve_name_in_scope(&self, scope: ScopeId, name: &Name) -> Option<&ScopeEntry> {
	self.scope_chain(Some(scope))
	.find_map(\|scope\| self.entries(scope).iter().find(\|it\| it.name == *name))
	}

	pub fn scope_for(&self, expr: ExprId) -> Option<ScopeId> {
	self.scope_by_expr.get(expr).copied()
	}

	pub fn scope_by_expr(&self) -> &ArenaMap<ExprId, ScopeId> {
	&self.scope_by_expr
	}
	}

	fn empty_entries(idx: usize) -> IdxRange<ScopeEntry> {
	IdxRange::new(Idx::from_raw(RawIdx::from(idx as u32))..Idx::from_raw(RawIdx::from(idx as u32)))
	}

	impl ExprScopes {
	fn new(body: &Body) -> ExprScopes {
	let mut scopes = ExprScopes {
	scopes: Arena::default(),
	scope_entries: Arena::default(),
	scope_by_expr: ArenaMap::with_capacity(body.exprs.len()),
	};
	let mut root = scopes.root_scope();
	scopes.add_params_bindings(body, root, &body.params);
	compute_expr_scopes(body.body_expr, body, &mut scopes, &mut root);
	scopes
	}

	fn root_scope(&mut self) -> ScopeId {
	self.scopes.alloc(ScopeData {
	parent: None,
	block: None,
	label: None,
	entries: empty_entries(self.scope_entries.len()),
	})
	}

	fn new_scope(&mut self, parent: ScopeId) -> ScopeId {
	self.scopes.alloc(ScopeData {
	parent: Some(parent),
	block: None,
	label: None,
	entries: empty_entries(self.scope_entries.len()),
	})
	}

	fn new_labeled_scope(&mut self, parent: ScopeId, label: Option<(LabelId, Name)>) -> ScopeId {
	self.scopes.alloc(ScopeData {
	parent: Some(parent),
	block: None,
	label,
	entries: empty_entries(self.scope_entries.len()),
	})
	}

	fn new_block_scope(
	&mut self,
	parent: ScopeId,
	block: Option<BlockId>,
	label: Option<(LabelId, Name)>,
	) -> ScopeId {
	self.scopes.alloc(ScopeData {
	parent: Some(parent),
	block,
	label,
	entries: empty_entries(self.scope_entries.len()),
	})
	}

	fn add_bindings(&mut self, body: &Body, scope: ScopeId, binding: BindingId) {
	let Binding { name, .. } = &body.bindings[binding];
	let entry = self.scope_entries.alloc(ScopeEntry { name: name.clone(), binding });
	self.scopes[scope].entries =
	IdxRange::new_inclusive(self.scopes[scope].entries.start()..=entry);
	}

	fn add_pat_bindings(&mut self, body: &Body, scope: ScopeId, pat: PatId) {
	let pattern = &body[pat];
	if let Pat::Bind { id, .. } = pattern {
	self.add_bindings(body, scope, *id);
	}

	pattern.walk_child_pats(\|pat\| self.add_pat_bindings(body, scope, pat));
	}

	fn add_params_bindings(&mut self, body: &Body, scope: ScopeId, params: &[PatId]) {
	params.iter().for_each(\|pat\| self.add_pat_bindings(body, scope, *pat));
	}

	fn set_scope(&mut self, node: ExprId, scope: ScopeId) {
	self.scope_by_expr.insert(node, scope);
	}

	fn shrink_to_fit(&mut self) {
	let ExprScopes { scopes, scope_entries, scope_by_expr } = self;
	scopes.shrink_to_fit();
	scope_entries.shrink_to_fit();
	scope_by_expr.shrink_to_fit();
	}
	}

	fn compute_block_scopes(
	statements: &[Statement],
	tail: Option<ExprId>,
	body: &Body,
	scopes: &mut ExprScopes,
	scope: &mut ScopeId,
	) {
	for stmt in statements {
	match stmt {
	Statement::Let { pat, initializer, else_branch, .. } => {
	if let Some(expr) = initializer {
	compute_expr_scopes(*expr, body, scopes, scope);
	}
	if let Some(expr) = else_branch {
	compute_expr_scopes(*expr, body, scopes, scope);
	}

	scope = scopes.new_scope(scope);
	scopes.add_pat_bindings(body, scope, pat);
	}
	Statement::Expr { expr, .. } => {
	compute_expr_scopes(*expr, body, scopes, scope);
	}
	}
	}
	if let Some(expr) = tail {
	compute_expr_scopes(expr, body, scopes, scope);
	}
	}

	fn compute_expr_scopes(expr: ExprId, body: &Body, scopes: &mut ExprScopes, scope: &mut ScopeId) {
	let make_label =
	\|label: &Option<LabelId>\| label.map(\|label\| (label, body.labels[label].name.clone()));

	scopes.set_scope(expr, *scope);
	match &body[expr] {
	Expr::Block { statements, tail, id, label } => {
	let mut scope = scopes.new_block_scope(scope, id, make_label(label));
	// Overwrite the old scope for the block expr, so that every block scope can be found
	// via the block itself (important for blocks that only contain items, no expressions).
	scopes.set_scope(expr, scope);
	compute_block_scopes(statements, *tail, body, scopes, &mut scope);
	}
	Expr::Const(_) => {
	// FIXME: This is broken.
	}
	Expr::Unsafe { id, statements, tail } \| Expr::Async { id, statements, tail } => {
	let mut scope = scopes.new_block_scope(scope, id, None);
	// Overwrite the old scope for the block expr, so that every block scope can be found
	// via the block itself (important for blocks that only contain items, no expressions).
	scopes.set_scope(expr, scope);
	compute_block_scopes(statements, *tail, body, scopes, &mut scope);
	}
	Expr::Loop { body: body_expr, label } => {
	let mut scope = scopes.new_labeled_scope(*scope, make_label(label));
	compute_expr_scopes(*body_expr, body, scopes, &mut scope);
	}
	Expr::Closure { args, body: body_expr, .. } => {
	let mut scope = scopes.new_scope(*scope);
	scopes.add_params_bindings(body, scope, args);
	compute_expr_scopes(*body_expr, body, scopes, &mut scope);
	}
	Expr::Match { expr, arms } => {
	compute_expr_scopes(*expr, body, scopes, scope);
	for arm in arms.iter() {
	let mut scope = scopes.new_scope(*scope);
	scopes.add_pat_bindings(body, scope, arm.pat);
	if let Some(guard) = arm.guard {
	scope = scopes.new_scope(scope);
	compute_expr_scopes(guard, body, scopes, &mut scope);
	}
	compute_expr_scopes(arm.expr, body, scopes, &mut scope);
	}
	}
	&Expr::If { condition, then_branch, else_branch } => {
	let mut then_branch_scope = scopes.new_scope(*scope);
	compute_expr_scopes(condition, body, scopes, &mut then_branch_scope);
	compute_expr_scopes(then_branch, body, scopes, &mut then_branch_scope);
	if let Some(else_branch) = else_branch {
	compute_expr_scopes(else_branch, body, scopes, scope);
	}
	}
	&Expr::Let { pat, expr } => {
	compute_expr_scopes(expr, body, scopes, scope);
	scope = scopes.new_scope(scope);
	scopes.add_pat_bindings(body, *scope, pat);
	}
	e => e.walk_child_exprs(\|e\| compute_expr_scopes(e, body, scopes, scope)),
	};
	}

	#[cfg(test)]
	mod tests {
	use base_db::{FileId, SourceDatabase};
	use hir_expand::{name::AsName, InFile};
	use syntax::{algo::find_node_at_offset, ast, AstNode};
	use test_fixture::WithFixture;
	use test_utils::{assert_eq_text, extract_offset};

	use crate::{db::DefDatabase, test_db::TestDB, FunctionId, ModuleDefId};

	fn find_function(db: &TestDB, file_id: FileId) -> FunctionId {
	let krate = db.test_crate();
	let crate_def_map = db.crate_def_map(krate);

	let module = crate_def_map.modules_for_file(file_id).next().unwrap();
	let (_, def) = crate_def_map[module].scope.entries().next().unwrap();
	match def.take_values().unwrap() {
	ModuleDefId::FunctionId(it) => it,
	_ => panic!(),
	}
	}

	fn do_check(ra_fixture: &str, expected: &[&str]) {
	let (offset, code) = extract_offset(ra_fixture);
	let code = {
	let mut buf = String::new();
	let off: usize = offset.into();
	buf.push_str(&code[..off]);
	buf.push_str("$0marker");
	buf.push_str(&code[off..]);
	buf
	};

	let (db, position) = TestDB::with_position(&code);
	let file_id = position.file_id;
	let offset = position.offset;

	let file_syntax = db.parse(file_id).syntax_node();
	let marker: ast::PathExpr = find_node_at_offset(&file_syntax, offset).unwrap();
	let function = find_function(&db, file_id);

	let scopes = db.expr_scopes(function.into());
	let (_body, source_map) = db.body_with_source_map(function.into());

	let expr_id = source_map
	.node_expr(InFile { file_id: file_id.into(), value: &marker.into() })
	.unwrap();
	let scope = scopes.scope_for(expr_id);

	let actual = scopes
	.scope_chain(scope)
	.flat_map(\|scope\| scopes.entries(scope))
	.map(\|it\| it.name().to_smol_str())
	.collect::<Vec<_>>()
	.join("\n");
	let expected = expected.join("\n");
	assert_eq_text!(&expected, &actual);
	}

	#[test]
	fn test_lambda_scope() {
	do_check(
	r"
	fn quux(foo: i32) {
	let f = \|bar, baz: i32\| {
	$0
	};
	}",
	&["bar", "baz", "foo"],
	);
	}

	#[test]
	fn test_call_scope() {
	do_check(
	r"
	fn quux() {
	f(\|x\| $0 );
	}",
	&["x"],
	);
	}

	#[test]
	fn test_method_call_scope() {
	do_check(
	r"
	fn quux() {
	z.f(\|x\| $0 );
	}",
	&["x"],
	);
	}

	#[test]
	fn test_loop_scope() {
	do_check(
	r"
	fn quux() {
	loop {
	let x = ();
	$0
	};
	}",
	&["x"],
	);
	}

	#[test]
	fn test_match() {
	do_check(
	r"
	fn quux() {
	match () {
	Some(x) => {
	$0
	}
	};
	}",
	&["x"],
	);
	}

	#[test]
	fn test_shadow_variable() {
	do_check(
	r"
	fn foo(x: String) {
	let x : &str = &x$0;
	}",
	&["x"],
	);
	}

	#[test]
	fn test_bindings_after_at() {
	do_check(
	r"
	fn foo() {
	match Some(()) {
	opt @ Some(unit) => {
	$0
	}
	_ => {}
	}
	}
	",
	&["opt", "unit"],
	);
	}

	#[test]
	fn macro_inner_item() {
	do_check(
	r"
	macro_rules! mac {
	() => {{
	fn inner() {}
	inner();
	}};
	}

	fn foo() {
	mac!();
	$0
	}
	",
	&[],
	);
	}

	#[test]
	fn broken_inner_item() {
	do_check(
	r"
	fn foo() {
	trait {}
	$0
	}
	",
	&[],
	);
	}

	fn do_check_local_name(ra_fixture: &str, expected_offset: u32) {
	let (db, position) = TestDB::with_position(ra_fixture);
	let file_id = position.file_id;
	let offset = position.offset;

	let file = db.parse(file_id).ok().unwrap();
	let expected_name = find_node_at_offset::<ast::Name>(file.syntax(), expected_offset.into())
	.expect("failed to find a name at the target offset");
	let name_ref: ast::NameRef = find_node_at_offset(file.syntax(), offset).unwrap();

	let function = find_function(&db, file_id);

	let scopes = db.expr_scopes(function.into());
	let (body, source_map) = db.body_with_source_map(function.into());

	let expr_scope = {
	let expr_ast = name_ref.syntax().ancestors().find_map(ast::Expr::cast).unwrap();
	let expr_id =
	source_map.node_expr(InFile { file_id: file_id.into(), value: &expr_ast }).unwrap();
	scopes.scope_for(expr_id).unwrap()
	};

	let resolved = scopes.resolve_name_in_scope(expr_scope, &name_ref.as_name()).unwrap();
	let pat_src = source_map
	.pat_syntax(*body.bindings[resolved.binding()].definitions.first().unwrap())
	.unwrap();

	let local_name = pat_src.value.syntax_node_ptr().to_node(file.syntax());
	assert_eq!(local_name.text_range(), expected_name.syntax().text_range());
	}

	#[test]
	fn test_resolve_local_name() {
	do_check_local_name(
	r#"
	fn foo(x: i32, y: u32) {
	{
	let z = x * 2;
	}
	{
	let t = x$0 * 3;
	}
	}
	"#,
	7,
	);
	}

	#[test]
	fn test_resolve_local_name_declaration() {
	do_check_local_name(
	r#"
	fn foo(x: String) {
	let x : &str = &x$0;
	}
	"#,
	7,
	);
	}

	#[test]
	fn test_resolve_local_name_shadow() {
	do_check_local_name(
	r"
	fn foo(x: String) {
	let x : &str = &x;
	x$0
	}
	",
	28,
	);
	}

	#[test]
	fn ref_patterns_contribute_bindings() {
	do_check_local_name(
	r"
	fn foo() {
	if let Some(&from) = bar() {
	from$0;
	}
	}
	",
	28,
	);
	}

	#[test]
	fn while_let_adds_binding() {
	do_check_local_name(
	r#"
	fn test() {
	let foo: Option<f32> = None;
	while let Option::Some(spam) = foo {
	spam$0
	}
	}
	"#,
	75,
	);
	do_check_local_name(
	r#"
	fn test() {
	let foo: Option<f32> = None;
	while (((let Option::Some(_) = foo))) && let Option::Some(spam) = foo {
	spam$0
	}
	}
	"#,
	107,
	);
	}

	#[test]
	fn match_guard_if_let() {
	do_check_local_name(
	r#"
	fn test() {
	let foo: Option<f32> = None;
	match foo {
	_ if let Option::Some(spam) = foo => spam$0,
	}
	}
	"#,
	93,
	);
	}

	#[test]
	fn let_chains_can_reference_previous_lets() {
	do_check_local_name(
	r#"
	fn test() {
	let foo: Option<i32> = None;
	if let Some(spam) = foo && spa$0m > 1 && let Some(spam) = foo && spam > 1 {}
	}
	"#,
	61,
	);
	do_check_local_name(
	r#"
	fn test() {
	let foo: Option<i32> = None;
	if let Some(spam) = foo && spam > 1 && let Some(spam) = foo && sp$0am > 1 {}
	}
	"#,
	100,
	);
	}
	}