diff --git a/crates/ra_hir/src/db.rs b/crates/ra_hir/src/db.rs index 7b7974f5bbe..f669ab96952 100644 --- a/crates/ra_hir/src/db.rs +++ b/crates/ra_hir/src/db.rs @@ -169,13 +169,13 @@ pub trait HirDatabase: DefDatabase + AstDatabase { #[salsa::invoke(crate::ty::generic_defaults_query)] fn generic_defaults(&self, def: GenericDef) -> Substs; - #[salsa::invoke(crate::expr::body_with_source_map_query)] + #[salsa::invoke(crate::expr::lower::body_with_source_map_query)] fn body_with_source_map( &self, def: DefWithBody, ) -> (Arc, Arc); - #[salsa::invoke(crate::expr::body_hir_query)] + #[salsa::invoke(crate::expr::lower::body_hir_query)] fn body_hir(&self, def: DefWithBody) -> Arc; #[salsa::invoke(crate::ty::method_resolution::CrateImplBlocks::impls_in_crate_query)] diff --git a/crates/ra_hir/src/expr.rs b/crates/ra_hir/src/expr.rs index 5c95bed40c1..17e89c48fa4 100644 --- a/crates/ra_hir/src/expr.rs +++ b/crates/ra_hir/src/expr.rs @@ -1,36 +1,30 @@ -use std::ops::Index; -use std::sync::Arc; +pub(crate) mod lower; +pub(crate) mod scope; +pub(crate) mod validation; -use rustc_hash::FxHashMap; +use std::{ops::Index, sync::Arc}; use ra_arena::{impl_arena_id, map::ArenaMap, Arena, RawId}; -use ra_syntax::{ - ast::{ - self, ArgListOwner, ArrayExprKind, LiteralKind, LoopBodyOwner, NameOwner, - TypeAscriptionOwner, - }, - AstNode, AstPtr, -}; -use test_utils::tested_by; +use ra_syntax::{ast, AstPtr}; +use rustc_hash::FxHashMap; use crate::{ - name::{AsName, SELF_PARAM}, path::GenericArgs, - ty::primitive::{FloatTy, IntTy, UncertainFloatTy, UncertainIntTy}, + ty::primitive::{UncertainFloatTy, UncertainIntTy}, type_ref::{Mutability, TypeRef}, - DefWithBody, Either, HasSource, HirDatabase, HirFileId, MacroCallLoc, MacroFileKind, Name, - Path, Resolver, + DefWithBody, Either, HirDatabase, Name, Path, Resolver, }; pub use self::scope::ExprScopes; -pub(crate) mod scope; -pub(crate) mod validation; - #[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash)] pub struct ExprId(RawId); impl_arena_id!(ExprId); +#[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash)] +pub struct PatId(RawId); +impl_arena_id!(PatId); + /// The body of an item (function, const etc.). #[derive(Debug, Eq, PartialEq)] pub struct Body { @@ -433,10 +427,6 @@ pub fn walk_child_exprs(&self, mut f: impl FnMut(ExprId)) { } } -#[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash)] -pub struct PatId(RawId); -impl_arena_id!(PatId); - /// Explicit binding annotations given in the HIR for a binding. Note /// that this is not the final binding *mode* that we infer after type /// inference. @@ -534,632 +524,3 @@ pub fn walk_child_pats(&self, mut f: impl FnMut(PatId)) { } } } - -// Queries - -pub(crate) struct ExprCollector { - db: DB, - owner: DefWithBody, - exprs: Arena, - pats: Arena, - source_map: BodySourceMap, - params: Vec, - body_expr: Option, - resolver: Resolver, - // Expr collector expands macros along the way. original points to the file - // we started with, current points to the current macro expansion. source - // maps don't support macros yet, so we only record info into source map if - // current == original (see #1196) - original_file_id: HirFileId, - current_file_id: HirFileId, -} - -impl<'a, DB> ExprCollector<&'a DB> -where - DB: HirDatabase, -{ - fn new(owner: DefWithBody, file_id: HirFileId, resolver: Resolver, db: &'a DB) -> Self { - ExprCollector { - owner, - resolver, - db, - exprs: Arena::default(), - pats: Arena::default(), - source_map: BodySourceMap::default(), - params: Vec::new(), - body_expr: None, - original_file_id: file_id, - current_file_id: file_id, - } - } - fn alloc_expr(&mut self, expr: Expr, ptr: AstPtr) -> ExprId { - let ptr = Either::A(ptr); - let id = self.exprs.alloc(expr); - if self.current_file_id == self.original_file_id { - self.source_map.expr_map.insert(ptr, id); - self.source_map.expr_map_back.insert(id, ptr); - } - id - } - - fn alloc_pat(&mut self, pat: Pat, ptr: PatPtr) -> PatId { - let id = self.pats.alloc(pat); - - if self.current_file_id == self.original_file_id { - self.source_map.pat_map.insert(ptr, id); - self.source_map.pat_map_back.insert(id, ptr); - } - - id - } - - fn empty_block(&mut self) -> ExprId { - let block = Expr::Block { statements: Vec::new(), tail: None }; - self.exprs.alloc(block) - } - - fn collect_expr(&mut self, expr: ast::Expr) -> ExprId { - let syntax_ptr = AstPtr::new(&expr); - match expr { - ast::Expr::IfExpr(e) => { - let then_branch = self.collect_block_opt(e.then_branch()); - - let else_branch = e.else_branch().map(|b| match b { - ast::ElseBranch::Block(it) => self.collect_block(it), - ast::ElseBranch::IfExpr(elif) => { - let expr: ast::Expr = ast::Expr::cast(elif.syntax().clone()).unwrap(); - self.collect_expr(expr) - } - }); - - let condition = match e.condition() { - None => self.exprs.alloc(Expr::Missing), - Some(condition) => match condition.pat() { - None => self.collect_expr_opt(condition.expr()), - // if let -- desugar to match - Some(pat) => { - let pat = self.collect_pat(pat); - let match_expr = self.collect_expr_opt(condition.expr()); - let placeholder_pat = self.pats.alloc(Pat::Missing); - let arms = vec![ - MatchArm { pats: vec![pat], expr: then_branch, guard: None }, - MatchArm { - pats: vec![placeholder_pat], - expr: else_branch.unwrap_or_else(|| self.empty_block()), - guard: None, - }, - ]; - return self - .alloc_expr(Expr::Match { expr: match_expr, arms }, syntax_ptr); - } - }, - }; - - self.alloc_expr(Expr::If { condition, then_branch, else_branch }, syntax_ptr) - } - ast::Expr::TryBlockExpr(e) => { - let body = self.collect_block_opt(e.body()); - self.alloc_expr(Expr::TryBlock { body }, syntax_ptr) - } - ast::Expr::BlockExpr(e) => self.collect_block(e), - ast::Expr::LoopExpr(e) => { - let body = self.collect_block_opt(e.loop_body()); - self.alloc_expr(Expr::Loop { body }, syntax_ptr) - } - ast::Expr::WhileExpr(e) => { - let body = self.collect_block_opt(e.loop_body()); - - let condition = match e.condition() { - None => self.exprs.alloc(Expr::Missing), - Some(condition) => match condition.pat() { - None => self.collect_expr_opt(condition.expr()), - // if let -- desugar to match - Some(pat) => { - tested_by!(infer_while_let); - let pat = self.collect_pat(pat); - let match_expr = self.collect_expr_opt(condition.expr()); - let placeholder_pat = self.pats.alloc(Pat::Missing); - let break_ = self.exprs.alloc(Expr::Break { expr: None }); - let arms = vec![ - MatchArm { pats: vec![pat], expr: body, guard: None }, - MatchArm { pats: vec![placeholder_pat], expr: break_, guard: None }, - ]; - let match_expr = - self.exprs.alloc(Expr::Match { expr: match_expr, arms }); - return self.alloc_expr(Expr::Loop { body: match_expr }, syntax_ptr); - } - }, - }; - - self.alloc_expr(Expr::While { condition, body }, syntax_ptr) - } - ast::Expr::ForExpr(e) => { - let iterable = self.collect_expr_opt(e.iterable()); - let pat = self.collect_pat_opt(e.pat()); - let body = self.collect_block_opt(e.loop_body()); - self.alloc_expr(Expr::For { iterable, pat, body }, syntax_ptr) - } - ast::Expr::CallExpr(e) => { - let callee = self.collect_expr_opt(e.expr()); - let args = if let Some(arg_list) = e.arg_list() { - arg_list.args().map(|e| self.collect_expr(e)).collect() - } else { - Vec::new() - }; - self.alloc_expr(Expr::Call { callee, args }, syntax_ptr) - } - ast::Expr::MethodCallExpr(e) => { - let receiver = self.collect_expr_opt(e.expr()); - let args = if let Some(arg_list) = e.arg_list() { - arg_list.args().map(|e| self.collect_expr(e)).collect() - } else { - Vec::new() - }; - let method_name = e.name_ref().map(|nr| nr.as_name()).unwrap_or_else(Name::missing); - let generic_args = e.type_arg_list().and_then(GenericArgs::from_ast); - self.alloc_expr( - Expr::MethodCall { receiver, method_name, args, generic_args }, - syntax_ptr, - ) - } - ast::Expr::MatchExpr(e) => { - let expr = self.collect_expr_opt(e.expr()); - let arms = if let Some(match_arm_list) = e.match_arm_list() { - match_arm_list - .arms() - .map(|arm| MatchArm { - pats: arm.pats().map(|p| self.collect_pat(p)).collect(), - expr: self.collect_expr_opt(arm.expr()), - guard: arm - .guard() - .and_then(|guard| guard.expr()) - .map(|e| self.collect_expr(e)), - }) - .collect() - } else { - Vec::new() - }; - self.alloc_expr(Expr::Match { expr, arms }, syntax_ptr) - } - ast::Expr::PathExpr(e) => { - let path = - e.path().and_then(Path::from_ast).map(Expr::Path).unwrap_or(Expr::Missing); - self.alloc_expr(path, syntax_ptr) - } - ast::Expr::ContinueExpr(_e) => { - // FIXME: labels - self.alloc_expr(Expr::Continue, syntax_ptr) - } - ast::Expr::BreakExpr(e) => { - let expr = e.expr().map(|e| self.collect_expr(e)); - self.alloc_expr(Expr::Break { expr }, syntax_ptr) - } - ast::Expr::ParenExpr(e) => { - let inner = self.collect_expr_opt(e.expr()); - // make the paren expr point to the inner expression as well - self.source_map.expr_map.insert(Either::A(syntax_ptr), inner); - inner - } - ast::Expr::ReturnExpr(e) => { - let expr = e.expr().map(|e| self.collect_expr(e)); - self.alloc_expr(Expr::Return { expr }, syntax_ptr) - } - ast::Expr::RecordLit(e) => { - let path = e.path().and_then(Path::from_ast); - let mut field_ptrs = Vec::new(); - let record_lit = if let Some(nfl) = e.record_field_list() { - let fields = nfl - .fields() - .inspect(|field| field_ptrs.push(AstPtr::new(field))) - .map(|field| RecordLitField { - name: field - .name_ref() - .map(|nr| nr.as_name()) - .unwrap_or_else(Name::missing), - expr: if let Some(e) = field.expr() { - self.collect_expr(e) - } else if let Some(nr) = field.name_ref() { - // field shorthand - let id = self.exprs.alloc(Expr::Path(Path::from_name_ref(&nr))); - let ptr = Either::B(AstPtr::new(&field)); - self.source_map.expr_map.insert(ptr, id); - self.source_map.expr_map_back.insert(id, ptr); - id - } else { - self.exprs.alloc(Expr::Missing) - }, - }) - .collect(); - let spread = nfl.spread().map(|s| self.collect_expr(s)); - Expr::RecordLit { path, fields, spread } - } else { - Expr::RecordLit { path, fields: Vec::new(), spread: None } - }; - - let res = self.alloc_expr(record_lit, syntax_ptr); - for (i, ptr) in field_ptrs.into_iter().enumerate() { - self.source_map.field_map.insert((res, i), ptr); - } - res - } - ast::Expr::FieldExpr(e) => { - let expr = self.collect_expr_opt(e.expr()); - let name = match e.field_access() { - Some(kind) => kind.as_name(), - _ => Name::missing(), - }; - self.alloc_expr(Expr::Field { expr, name }, syntax_ptr) - } - ast::Expr::AwaitExpr(e) => { - let expr = self.collect_expr_opt(e.expr()); - self.alloc_expr(Expr::Await { expr }, syntax_ptr) - } - ast::Expr::TryExpr(e) => { - let expr = self.collect_expr_opt(e.expr()); - self.alloc_expr(Expr::Try { expr }, syntax_ptr) - } - ast::Expr::CastExpr(e) => { - let expr = self.collect_expr_opt(e.expr()); - let type_ref = TypeRef::from_ast_opt(e.type_ref()); - self.alloc_expr(Expr::Cast { expr, type_ref }, syntax_ptr) - } - ast::Expr::RefExpr(e) => { - let expr = self.collect_expr_opt(e.expr()); - let mutability = Mutability::from_mutable(e.is_mut()); - self.alloc_expr(Expr::Ref { expr, mutability }, syntax_ptr) - } - ast::Expr::PrefixExpr(e) => { - let expr = self.collect_expr_opt(e.expr()); - if let Some(op) = e.op_kind() { - self.alloc_expr(Expr::UnaryOp { expr, op }, syntax_ptr) - } else { - self.alloc_expr(Expr::Missing, syntax_ptr) - } - } - ast::Expr::LambdaExpr(e) => { - let mut args = Vec::new(); - let mut arg_types = Vec::new(); - if let Some(pl) = e.param_list() { - for param in pl.params() { - let pat = self.collect_pat_opt(param.pat()); - let type_ref = param.ascribed_type().map(TypeRef::from_ast); - args.push(pat); - arg_types.push(type_ref); - } - } - let body = self.collect_expr_opt(e.body()); - self.alloc_expr(Expr::Lambda { args, arg_types, body }, syntax_ptr) - } - ast::Expr::BinExpr(e) => { - let lhs = self.collect_expr_opt(e.lhs()); - let rhs = self.collect_expr_opt(e.rhs()); - let op = e.op_kind().map(BinaryOp::from); - self.alloc_expr(Expr::BinaryOp { lhs, rhs, op }, syntax_ptr) - } - ast::Expr::TupleExpr(e) => { - let exprs = e.exprs().map(|expr| self.collect_expr(expr)).collect(); - self.alloc_expr(Expr::Tuple { exprs }, syntax_ptr) - } - - ast::Expr::ArrayExpr(e) => { - let kind = e.kind(); - - match kind { - ArrayExprKind::ElementList(e) => { - let exprs = e.map(|expr| self.collect_expr(expr)).collect(); - self.alloc_expr(Expr::Array(Array::ElementList(exprs)), syntax_ptr) - } - ArrayExprKind::Repeat { initializer, repeat } => { - let initializer = self.collect_expr_opt(initializer); - let repeat = self.collect_expr_opt(repeat); - self.alloc_expr( - Expr::Array(Array::Repeat { initializer, repeat }), - syntax_ptr, - ) - } - } - } - - ast::Expr::Literal(e) => { - let lit = match e.kind() { - LiteralKind::IntNumber { suffix } => { - let known_name = suffix - .and_then(|it| IntTy::from_suffix(&it).map(UncertainIntTy::Known)); - - Literal::Int( - Default::default(), - known_name.unwrap_or(UncertainIntTy::Unknown), - ) - } - LiteralKind::FloatNumber { suffix } => { - let known_name = suffix - .and_then(|it| FloatTy::from_suffix(&it).map(UncertainFloatTy::Known)); - - Literal::Float( - Default::default(), - known_name.unwrap_or(UncertainFloatTy::Unknown), - ) - } - LiteralKind::ByteString => Literal::ByteString(Default::default()), - LiteralKind::String => Literal::String(Default::default()), - LiteralKind::Byte => { - Literal::Int(Default::default(), UncertainIntTy::Known(IntTy::u8())) - } - LiteralKind::Bool => Literal::Bool(Default::default()), - LiteralKind::Char => Literal::Char(Default::default()), - }; - self.alloc_expr(Expr::Literal(lit), syntax_ptr) - } - ast::Expr::IndexExpr(e) => { - let base = self.collect_expr_opt(e.base()); - let index = self.collect_expr_opt(e.index()); - self.alloc_expr(Expr::Index { base, index }, syntax_ptr) - } - - // FIXME implement HIR for these: - ast::Expr::Label(_e) => self.alloc_expr(Expr::Missing, syntax_ptr), - ast::Expr::RangeExpr(_e) => self.alloc_expr(Expr::Missing, syntax_ptr), - ast::Expr::MacroCall(e) => { - let ast_id = self - .db - .ast_id_map(self.current_file_id) - .ast_id(&e) - .with_file_id(self.current_file_id); - - if let Some(path) = e.path().and_then(Path::from_ast) { - if let Some(def) = self.resolver.resolve_path_as_macro(self.db, &path) { - let call_id = MacroCallLoc { def: def.id, ast_id }.id(self.db); - let file_id = call_id.as_file(MacroFileKind::Expr); - if let Some(node) = self.db.parse_or_expand(file_id) { - if let Some(expr) = ast::Expr::cast(node) { - log::debug!("macro expansion {:#?}", expr.syntax()); - let old_file_id = - std::mem::replace(&mut self.current_file_id, file_id); - let id = self.collect_expr(expr); - self.current_file_id = old_file_id; - return id; - } - } - } - } - // FIXME: Instead of just dropping the error from expansion - // report it - self.alloc_expr(Expr::Missing, syntax_ptr) - } - } - } - - fn collect_expr_opt(&mut self, expr: Option) -> ExprId { - if let Some(expr) = expr { - self.collect_expr(expr) - } else { - self.exprs.alloc(Expr::Missing) - } - } - - fn collect_block(&mut self, expr: ast::BlockExpr) -> ExprId { - let syntax_node_ptr = AstPtr::new(&expr.clone().into()); - let block = match expr.block() { - Some(block) => block, - None => return self.alloc_expr(Expr::Missing, syntax_node_ptr), - }; - let statements = block - .statements() - .map(|s| match s { - ast::Stmt::LetStmt(stmt) => { - let pat = self.collect_pat_opt(stmt.pat()); - let type_ref = stmt.ascribed_type().map(TypeRef::from_ast); - let initializer = stmt.initializer().map(|e| self.collect_expr(e)); - Statement::Let { pat, type_ref, initializer } - } - ast::Stmt::ExprStmt(stmt) => Statement::Expr(self.collect_expr_opt(stmt.expr())), - }) - .collect(); - let tail = block.expr().map(|e| self.collect_expr(e)); - self.alloc_expr(Expr::Block { statements, tail }, syntax_node_ptr) - } - - fn collect_block_opt(&mut self, expr: Option) -> ExprId { - if let Some(block) = expr { - self.collect_block(block) - } else { - self.exprs.alloc(Expr::Missing) - } - } - - fn collect_pat(&mut self, pat: ast::Pat) -> PatId { - let pattern = match &pat { - ast::Pat::BindPat(bp) => { - let name = bp.name().map(|nr| nr.as_name()).unwrap_or_else(Name::missing); - let annotation = BindingAnnotation::new(bp.is_mutable(), bp.is_ref()); - let subpat = bp.pat().map(|subpat| self.collect_pat(subpat)); - Pat::Bind { name, mode: annotation, subpat } - } - ast::Pat::TupleStructPat(p) => { - let path = p.path().and_then(Path::from_ast); - let args = p.args().map(|p| self.collect_pat(p)).collect(); - Pat::TupleStruct { path, args } - } - ast::Pat::RefPat(p) => { - let pat = self.collect_pat_opt(p.pat()); - let mutability = Mutability::from_mutable(p.is_mut()); - Pat::Ref { pat, mutability } - } - ast::Pat::PathPat(p) => { - let path = p.path().and_then(Path::from_ast); - path.map(Pat::Path).unwrap_or(Pat::Missing) - } - ast::Pat::TuplePat(p) => { - let args = p.args().map(|p| self.collect_pat(p)).collect(); - Pat::Tuple(args) - } - ast::Pat::PlaceholderPat(_) => Pat::Wild, - ast::Pat::RecordPat(p) => { - let path = p.path().and_then(Path::from_ast); - let record_field_pat_list = - p.record_field_pat_list().expect("every struct should have a field list"); - let mut fields: Vec<_> = record_field_pat_list - .bind_pats() - .filter_map(|bind_pat| { - let ast_pat = - ast::Pat::cast(bind_pat.syntax().clone()).expect("bind pat is a pat"); - let pat = self.collect_pat(ast_pat); - let name = bind_pat.name()?.as_name(); - Some(RecordFieldPat { name, pat }) - }) - .collect(); - let iter = record_field_pat_list.record_field_pats().filter_map(|f| { - let ast_pat = f.pat()?; - let pat = self.collect_pat(ast_pat); - let name = f.name()?.as_name(); - Some(RecordFieldPat { name, pat }) - }); - fields.extend(iter); - - Pat::Struct { path, args: fields } - } - - // FIXME: implement - ast::Pat::BoxPat(_) => Pat::Missing, - ast::Pat::LiteralPat(_) => Pat::Missing, - ast::Pat::SlicePat(_) | ast::Pat::RangePat(_) => Pat::Missing, - }; - let ptr = AstPtr::new(&pat); - self.alloc_pat(pattern, Either::A(ptr)) - } - - fn collect_pat_opt(&mut self, pat: Option) -> PatId { - if let Some(pat) = pat { - self.collect_pat(pat) - } else { - self.pats.alloc(Pat::Missing) - } - } - - fn collect_const_body(&mut self, node: ast::ConstDef) { - let body = self.collect_expr_opt(node.body()); - self.body_expr = Some(body); - } - - fn collect_static_body(&mut self, node: ast::StaticDef) { - let body = self.collect_expr_opt(node.body()); - self.body_expr = Some(body); - } - - fn collect_fn_body(&mut self, node: ast::FnDef) { - if let Some(param_list) = node.param_list() { - if let Some(self_param) = param_list.self_param() { - let ptr = AstPtr::new(&self_param); - let param_pat = self.alloc_pat( - Pat::Bind { - name: SELF_PARAM, - mode: BindingAnnotation::Unannotated, - subpat: None, - }, - Either::B(ptr), - ); - self.params.push(param_pat); - } - - for param in param_list.params() { - let pat = if let Some(pat) = param.pat() { - pat - } else { - continue; - }; - let param_pat = self.collect_pat(pat); - self.params.push(param_pat); - } - }; - - let body = self.collect_block_opt(node.body()); - self.body_expr = Some(body); - } - - fn finish(self) -> (Body, BodySourceMap) { - let body = Body { - owner: self.owner, - exprs: self.exprs, - pats: self.pats, - params: self.params, - body_expr: self.body_expr.expect("A body should have been collected"), - }; - (body, self.source_map) - } -} - -impl From for BinaryOp { - fn from(ast_op: ast::BinOp) -> Self { - match ast_op { - ast::BinOp::BooleanOr => BinaryOp::LogicOp(LogicOp::Or), - ast::BinOp::BooleanAnd => BinaryOp::LogicOp(LogicOp::And), - ast::BinOp::EqualityTest => BinaryOp::CmpOp(CmpOp::Eq { negated: false }), - ast::BinOp::NegatedEqualityTest => BinaryOp::CmpOp(CmpOp::Eq { negated: true }), - ast::BinOp::LesserEqualTest => { - BinaryOp::CmpOp(CmpOp::Ord { ordering: Ordering::Less, strict: false }) - } - ast::BinOp::GreaterEqualTest => { - BinaryOp::CmpOp(CmpOp::Ord { ordering: Ordering::Greater, strict: false }) - } - ast::BinOp::LesserTest => { - BinaryOp::CmpOp(CmpOp::Ord { ordering: Ordering::Less, strict: true }) - } - ast::BinOp::GreaterTest => { - BinaryOp::CmpOp(CmpOp::Ord { ordering: Ordering::Greater, strict: true }) - } - ast::BinOp::Addition => BinaryOp::ArithOp(ArithOp::Add), - ast::BinOp::Multiplication => BinaryOp::ArithOp(ArithOp::Mul), - ast::BinOp::Subtraction => BinaryOp::ArithOp(ArithOp::Sub), - ast::BinOp::Division => BinaryOp::ArithOp(ArithOp::Div), - ast::BinOp::Remainder => BinaryOp::ArithOp(ArithOp::Rem), - ast::BinOp::LeftShift => BinaryOp::ArithOp(ArithOp::Shl), - ast::BinOp::RightShift => BinaryOp::ArithOp(ArithOp::Shr), - ast::BinOp::BitwiseXor => BinaryOp::ArithOp(ArithOp::BitXor), - ast::BinOp::BitwiseOr => BinaryOp::ArithOp(ArithOp::BitOr), - ast::BinOp::BitwiseAnd => BinaryOp::ArithOp(ArithOp::BitAnd), - ast::BinOp::Assignment => BinaryOp::Assignment { op: None }, - ast::BinOp::AddAssign => BinaryOp::Assignment { op: Some(ArithOp::Add) }, - ast::BinOp::DivAssign => BinaryOp::Assignment { op: Some(ArithOp::Div) }, - ast::BinOp::MulAssign => BinaryOp::Assignment { op: Some(ArithOp::Mul) }, - ast::BinOp::RemAssign => BinaryOp::Assignment { op: Some(ArithOp::Rem) }, - ast::BinOp::ShlAssign => BinaryOp::Assignment { op: Some(ArithOp::Shl) }, - ast::BinOp::ShrAssign => BinaryOp::Assignment { op: Some(ArithOp::Shr) }, - ast::BinOp::SubAssign => BinaryOp::Assignment { op: Some(ArithOp::Sub) }, - ast::BinOp::BitOrAssign => BinaryOp::Assignment { op: Some(ArithOp::BitOr) }, - ast::BinOp::BitAndAssign => BinaryOp::Assignment { op: Some(ArithOp::BitAnd) }, - ast::BinOp::BitXorAssign => BinaryOp::Assignment { op: Some(ArithOp::BitXor) }, - } - } -} - -pub(crate) fn body_with_source_map_query( - db: &impl HirDatabase, - def: DefWithBody, -) -> (Arc, Arc) { - let mut collector; - - match def { - DefWithBody::Const(ref c) => { - let src = c.source(db); - collector = ExprCollector::new(def, src.file_id, def.resolver(db), db); - collector.collect_const_body(src.ast) - } - DefWithBody::Function(ref f) => { - let src = f.source(db); - collector = ExprCollector::new(def, src.file_id, def.resolver(db), db); - collector.collect_fn_body(src.ast) - } - DefWithBody::Static(ref s) => { - let src = s.source(db); - collector = ExprCollector::new(def, src.file_id, def.resolver(db), db); - collector.collect_static_body(src.ast) - } - } - - let (body, source_map) = collector.finish(); - (Arc::new(body), Arc::new(source_map)) -} - -pub(crate) fn body_hir_query(db: &impl HirDatabase, def: DefWithBody) -> Arc { - db.body_with_source_map(def).0 -} diff --git a/crates/ra_hir/src/expr/lower.rs b/crates/ra_hir/src/expr/lower.rs new file mode 100644 index 00000000000..01b770149c4 --- /dev/null +++ b/crates/ra_hir/src/expr/lower.rs @@ -0,0 +1,653 @@ +use std::sync::Arc; + +use ra_arena::Arena; +use ra_syntax::{ + ast::{ + self, ArgListOwner, ArrayExprKind, LiteralKind, LoopBodyOwner, NameOwner, + TypeAscriptionOwner, + }, + AstNode, AstPtr, +}; +use test_utils::tested_by; + +use crate::{ + name::{AsName, Name, SELF_PARAM}, + path::GenericArgs, + ty::primitive::{FloatTy, IntTy, UncertainFloatTy, UncertainIntTy}, + type_ref::TypeRef, + DefWithBody, Either, HasSource, HirDatabase, HirFileId, MacroCallLoc, MacroFileKind, + Mutability, Path, Resolver, +}; + +use super::{ + ArithOp, Array, BinaryOp, BindingAnnotation, Body, BodySourceMap, CmpOp, Expr, ExprId, + Literal, LogicOp, MatchArm, Ordering, Pat, PatId, PatPtr, RecordFieldPat, RecordLitField, + Statement, +}; + +pub(crate) struct ExprCollector { + db: DB, + owner: DefWithBody, + exprs: Arena, + pats: Arena, + source_map: BodySourceMap, + params: Vec, + body_expr: Option, + resolver: Resolver, + // Expr collector expands macros along the way. original points to the file + // we started with, current points to the current macro expansion. source + // maps don't support macros yet, so we only record info into source map if + // current == original (see #1196) + original_file_id: HirFileId, + current_file_id: HirFileId, +} + +impl<'a, DB> ExprCollector<&'a DB> +where + DB: HirDatabase, +{ + fn new(owner: DefWithBody, file_id: HirFileId, resolver: Resolver, db: &'a DB) -> Self { + ExprCollector { + owner, + resolver, + db, + exprs: Arena::default(), + pats: Arena::default(), + source_map: BodySourceMap::default(), + params: Vec::new(), + body_expr: None, + original_file_id: file_id, + current_file_id: file_id, + } + } + fn alloc_expr(&mut self, expr: Expr, ptr: AstPtr) -> ExprId { + let ptr = Either::A(ptr); + let id = self.exprs.alloc(expr); + if self.current_file_id == self.original_file_id { + self.source_map.expr_map.insert(ptr, id); + self.source_map.expr_map_back.insert(id, ptr); + } + id + } + + fn alloc_pat(&mut self, pat: Pat, ptr: PatPtr) -> PatId { + let id = self.pats.alloc(pat); + + if self.current_file_id == self.original_file_id { + self.source_map.pat_map.insert(ptr, id); + self.source_map.pat_map_back.insert(id, ptr); + } + + id + } + + fn empty_block(&mut self) -> ExprId { + let block = Expr::Block { statements: Vec::new(), tail: None }; + self.exprs.alloc(block) + } + + fn collect_expr(&mut self, expr: ast::Expr) -> ExprId { + let syntax_ptr = AstPtr::new(&expr); + match expr { + ast::Expr::IfExpr(e) => { + let then_branch = self.collect_block_opt(e.then_branch()); + + let else_branch = e.else_branch().map(|b| match b { + ast::ElseBranch::Block(it) => self.collect_block(it), + ast::ElseBranch::IfExpr(elif) => { + let expr: ast::Expr = ast::Expr::cast(elif.syntax().clone()).unwrap(); + self.collect_expr(expr) + } + }); + + let condition = match e.condition() { + None => self.exprs.alloc(Expr::Missing), + Some(condition) => match condition.pat() { + None => self.collect_expr_opt(condition.expr()), + // if let -- desugar to match + Some(pat) => { + let pat = self.collect_pat(pat); + let match_expr = self.collect_expr_opt(condition.expr()); + let placeholder_pat = self.pats.alloc(Pat::Missing); + let arms = vec![ + MatchArm { pats: vec![pat], expr: then_branch, guard: None }, + MatchArm { + pats: vec![placeholder_pat], + expr: else_branch.unwrap_or_else(|| self.empty_block()), + guard: None, + }, + ]; + return self + .alloc_expr(Expr::Match { expr: match_expr, arms }, syntax_ptr); + } + }, + }; + + self.alloc_expr(Expr::If { condition, then_branch, else_branch }, syntax_ptr) + } + ast::Expr::TryBlockExpr(e) => { + let body = self.collect_block_opt(e.body()); + self.alloc_expr(Expr::TryBlock { body }, syntax_ptr) + } + ast::Expr::BlockExpr(e) => self.collect_block(e), + ast::Expr::LoopExpr(e) => { + let body = self.collect_block_opt(e.loop_body()); + self.alloc_expr(Expr::Loop { body }, syntax_ptr) + } + ast::Expr::WhileExpr(e) => { + let body = self.collect_block_opt(e.loop_body()); + + let condition = match e.condition() { + None => self.exprs.alloc(Expr::Missing), + Some(condition) => match condition.pat() { + None => self.collect_expr_opt(condition.expr()), + // if let -- desugar to match + Some(pat) => { + tested_by!(infer_while_let); + let pat = self.collect_pat(pat); + let match_expr = self.collect_expr_opt(condition.expr()); + let placeholder_pat = self.pats.alloc(Pat::Missing); + let break_ = self.exprs.alloc(Expr::Break { expr: None }); + let arms = vec![ + MatchArm { pats: vec![pat], expr: body, guard: None }, + MatchArm { pats: vec![placeholder_pat], expr: break_, guard: None }, + ]; + let match_expr = + self.exprs.alloc(Expr::Match { expr: match_expr, arms }); + return self.alloc_expr(Expr::Loop { body: match_expr }, syntax_ptr); + } + }, + }; + + self.alloc_expr(Expr::While { condition, body }, syntax_ptr) + } + ast::Expr::ForExpr(e) => { + let iterable = self.collect_expr_opt(e.iterable()); + let pat = self.collect_pat_opt(e.pat()); + let body = self.collect_block_opt(e.loop_body()); + self.alloc_expr(Expr::For { iterable, pat, body }, syntax_ptr) + } + ast::Expr::CallExpr(e) => { + let callee = self.collect_expr_opt(e.expr()); + let args = if let Some(arg_list) = e.arg_list() { + arg_list.args().map(|e| self.collect_expr(e)).collect() + } else { + Vec::new() + }; + self.alloc_expr(Expr::Call { callee, args }, syntax_ptr) + } + ast::Expr::MethodCallExpr(e) => { + let receiver = self.collect_expr_opt(e.expr()); + let args = if let Some(arg_list) = e.arg_list() { + arg_list.args().map(|e| self.collect_expr(e)).collect() + } else { + Vec::new() + }; + let method_name = e.name_ref().map(|nr| nr.as_name()).unwrap_or_else(Name::missing); + let generic_args = e.type_arg_list().and_then(GenericArgs::from_ast); + self.alloc_expr( + Expr::MethodCall { receiver, method_name, args, generic_args }, + syntax_ptr, + ) + } + ast::Expr::MatchExpr(e) => { + let expr = self.collect_expr_opt(e.expr()); + let arms = if let Some(match_arm_list) = e.match_arm_list() { + match_arm_list + .arms() + .map(|arm| MatchArm { + pats: arm.pats().map(|p| self.collect_pat(p)).collect(), + expr: self.collect_expr_opt(arm.expr()), + guard: arm + .guard() + .and_then(|guard| guard.expr()) + .map(|e| self.collect_expr(e)), + }) + .collect() + } else { + Vec::new() + }; + self.alloc_expr(Expr::Match { expr, arms }, syntax_ptr) + } + ast::Expr::PathExpr(e) => { + let path = + e.path().and_then(Path::from_ast).map(Expr::Path).unwrap_or(Expr::Missing); + self.alloc_expr(path, syntax_ptr) + } + ast::Expr::ContinueExpr(_e) => { + // FIXME: labels + self.alloc_expr(Expr::Continue, syntax_ptr) + } + ast::Expr::BreakExpr(e) => { + let expr = e.expr().map(|e| self.collect_expr(e)); + self.alloc_expr(Expr::Break { expr }, syntax_ptr) + } + ast::Expr::ParenExpr(e) => { + let inner = self.collect_expr_opt(e.expr()); + // make the paren expr point to the inner expression as well + self.source_map.expr_map.insert(Either::A(syntax_ptr), inner); + inner + } + ast::Expr::ReturnExpr(e) => { + let expr = e.expr().map(|e| self.collect_expr(e)); + self.alloc_expr(Expr::Return { expr }, syntax_ptr) + } + ast::Expr::RecordLit(e) => { + let path = e.path().and_then(Path::from_ast); + let mut field_ptrs = Vec::new(); + let record_lit = if let Some(nfl) = e.record_field_list() { + let fields = nfl + .fields() + .inspect(|field| field_ptrs.push(AstPtr::new(field))) + .map(|field| RecordLitField { + name: field + .name_ref() + .map(|nr| nr.as_name()) + .unwrap_or_else(Name::missing), + expr: if let Some(e) = field.expr() { + self.collect_expr(e) + } else if let Some(nr) = field.name_ref() { + // field shorthand + let id = self.exprs.alloc(Expr::Path(Path::from_name_ref(&nr))); + let ptr = Either::B(AstPtr::new(&field)); + self.source_map.expr_map.insert(ptr, id); + self.source_map.expr_map_back.insert(id, ptr); + id + } else { + self.exprs.alloc(Expr::Missing) + }, + }) + .collect(); + let spread = nfl.spread().map(|s| self.collect_expr(s)); + Expr::RecordLit { path, fields, spread } + } else { + Expr::RecordLit { path, fields: Vec::new(), spread: None } + }; + + let res = self.alloc_expr(record_lit, syntax_ptr); + for (i, ptr) in field_ptrs.into_iter().enumerate() { + self.source_map.field_map.insert((res, i), ptr); + } + res + } + ast::Expr::FieldExpr(e) => { + let expr = self.collect_expr_opt(e.expr()); + let name = match e.field_access() { + Some(kind) => kind.as_name(), + _ => Name::missing(), + }; + self.alloc_expr(Expr::Field { expr, name }, syntax_ptr) + } + ast::Expr::AwaitExpr(e) => { + let expr = self.collect_expr_opt(e.expr()); + self.alloc_expr(Expr::Await { expr }, syntax_ptr) + } + ast::Expr::TryExpr(e) => { + let expr = self.collect_expr_opt(e.expr()); + self.alloc_expr(Expr::Try { expr }, syntax_ptr) + } + ast::Expr::CastExpr(e) => { + let expr = self.collect_expr_opt(e.expr()); + let type_ref = TypeRef::from_ast_opt(e.type_ref()); + self.alloc_expr(Expr::Cast { expr, type_ref }, syntax_ptr) + } + ast::Expr::RefExpr(e) => { + let expr = self.collect_expr_opt(e.expr()); + let mutability = Mutability::from_mutable(e.is_mut()); + self.alloc_expr(Expr::Ref { expr, mutability }, syntax_ptr) + } + ast::Expr::PrefixExpr(e) => { + let expr = self.collect_expr_opt(e.expr()); + if let Some(op) = e.op_kind() { + self.alloc_expr(Expr::UnaryOp { expr, op }, syntax_ptr) + } else { + self.alloc_expr(Expr::Missing, syntax_ptr) + } + } + ast::Expr::LambdaExpr(e) => { + let mut args = Vec::new(); + let mut arg_types = Vec::new(); + if let Some(pl) = e.param_list() { + for param in pl.params() { + let pat = self.collect_pat_opt(param.pat()); + let type_ref = param.ascribed_type().map(TypeRef::from_ast); + args.push(pat); + arg_types.push(type_ref); + } + } + let body = self.collect_expr_opt(e.body()); + self.alloc_expr(Expr::Lambda { args, arg_types, body }, syntax_ptr) + } + ast::Expr::BinExpr(e) => { + let lhs = self.collect_expr_opt(e.lhs()); + let rhs = self.collect_expr_opt(e.rhs()); + let op = e.op_kind().map(BinaryOp::from); + self.alloc_expr(Expr::BinaryOp { lhs, rhs, op }, syntax_ptr) + } + ast::Expr::TupleExpr(e) => { + let exprs = e.exprs().map(|expr| self.collect_expr(expr)).collect(); + self.alloc_expr(Expr::Tuple { exprs }, syntax_ptr) + } + + ast::Expr::ArrayExpr(e) => { + let kind = e.kind(); + + match kind { + ArrayExprKind::ElementList(e) => { + let exprs = e.map(|expr| self.collect_expr(expr)).collect(); + self.alloc_expr(Expr::Array(Array::ElementList(exprs)), syntax_ptr) + } + ArrayExprKind::Repeat { initializer, repeat } => { + let initializer = self.collect_expr_opt(initializer); + let repeat = self.collect_expr_opt(repeat); + self.alloc_expr( + Expr::Array(Array::Repeat { initializer, repeat }), + syntax_ptr, + ) + } + } + } + + ast::Expr::Literal(e) => { + let lit = match e.kind() { + LiteralKind::IntNumber { suffix } => { + let known_name = suffix + .and_then(|it| IntTy::from_suffix(&it).map(UncertainIntTy::Known)); + + Literal::Int( + Default::default(), + known_name.unwrap_or(UncertainIntTy::Unknown), + ) + } + LiteralKind::FloatNumber { suffix } => { + let known_name = suffix + .and_then(|it| FloatTy::from_suffix(&it).map(UncertainFloatTy::Known)); + + Literal::Float( + Default::default(), + known_name.unwrap_or(UncertainFloatTy::Unknown), + ) + } + LiteralKind::ByteString => Literal::ByteString(Default::default()), + LiteralKind::String => Literal::String(Default::default()), + LiteralKind::Byte => { + Literal::Int(Default::default(), UncertainIntTy::Known(IntTy::u8())) + } + LiteralKind::Bool => Literal::Bool(Default::default()), + LiteralKind::Char => Literal::Char(Default::default()), + }; + self.alloc_expr(Expr::Literal(lit), syntax_ptr) + } + ast::Expr::IndexExpr(e) => { + let base = self.collect_expr_opt(e.base()); + let index = self.collect_expr_opt(e.index()); + self.alloc_expr(Expr::Index { base, index }, syntax_ptr) + } + + // FIXME implement HIR for these: + ast::Expr::Label(_e) => self.alloc_expr(Expr::Missing, syntax_ptr), + ast::Expr::RangeExpr(_e) => self.alloc_expr(Expr::Missing, syntax_ptr), + ast::Expr::MacroCall(e) => { + let ast_id = self + .db + .ast_id_map(self.current_file_id) + .ast_id(&e) + .with_file_id(self.current_file_id); + + if let Some(path) = e.path().and_then(Path::from_ast) { + if let Some(def) = self.resolver.resolve_path_as_macro(self.db, &path) { + let call_id = MacroCallLoc { def: def.id, ast_id }.id(self.db); + let file_id = call_id.as_file(MacroFileKind::Expr); + if let Some(node) = self.db.parse_or_expand(file_id) { + if let Some(expr) = ast::Expr::cast(node) { + log::debug!("macro expansion {:#?}", expr.syntax()); + let old_file_id = + std::mem::replace(&mut self.current_file_id, file_id); + let id = self.collect_expr(expr); + self.current_file_id = old_file_id; + return id; + } + } + } + } + // FIXME: Instead of just dropping the error from expansion + // report it + self.alloc_expr(Expr::Missing, syntax_ptr) + } + } + } + + fn collect_expr_opt(&mut self, expr: Option) -> ExprId { + if let Some(expr) = expr { + self.collect_expr(expr) + } else { + self.exprs.alloc(Expr::Missing) + } + } + + fn collect_block(&mut self, expr: ast::BlockExpr) -> ExprId { + let syntax_node_ptr = AstPtr::new(&expr.clone().into()); + let block = match expr.block() { + Some(block) => block, + None => return self.alloc_expr(Expr::Missing, syntax_node_ptr), + }; + let statements = block + .statements() + .map(|s| match s { + ast::Stmt::LetStmt(stmt) => { + let pat = self.collect_pat_opt(stmt.pat()); + let type_ref = stmt.ascribed_type().map(TypeRef::from_ast); + let initializer = stmt.initializer().map(|e| self.collect_expr(e)); + Statement::Let { pat, type_ref, initializer } + } + ast::Stmt::ExprStmt(stmt) => Statement::Expr(self.collect_expr_opt(stmt.expr())), + }) + .collect(); + let tail = block.expr().map(|e| self.collect_expr(e)); + self.alloc_expr(Expr::Block { statements, tail }, syntax_node_ptr) + } + + fn collect_block_opt(&mut self, expr: Option) -> ExprId { + if let Some(block) = expr { + self.collect_block(block) + } else { + self.exprs.alloc(Expr::Missing) + } + } + + fn collect_pat(&mut self, pat: ast::Pat) -> PatId { + let pattern = match &pat { + ast::Pat::BindPat(bp) => { + let name = bp.name().map(|nr| nr.as_name()).unwrap_or_else(Name::missing); + let annotation = BindingAnnotation::new(bp.is_mutable(), bp.is_ref()); + let subpat = bp.pat().map(|subpat| self.collect_pat(subpat)); + Pat::Bind { name, mode: annotation, subpat } + } + ast::Pat::TupleStructPat(p) => { + let path = p.path().and_then(Path::from_ast); + let args = p.args().map(|p| self.collect_pat(p)).collect(); + Pat::TupleStruct { path, args } + } + ast::Pat::RefPat(p) => { + let pat = self.collect_pat_opt(p.pat()); + let mutability = Mutability::from_mutable(p.is_mut()); + Pat::Ref { pat, mutability } + } + ast::Pat::PathPat(p) => { + let path = p.path().and_then(Path::from_ast); + path.map(Pat::Path).unwrap_or(Pat::Missing) + } + ast::Pat::TuplePat(p) => { + let args = p.args().map(|p| self.collect_pat(p)).collect(); + Pat::Tuple(args) + } + ast::Pat::PlaceholderPat(_) => Pat::Wild, + ast::Pat::RecordPat(p) => { + let path = p.path().and_then(Path::from_ast); + let record_field_pat_list = + p.record_field_pat_list().expect("every struct should have a field list"); + let mut fields: Vec<_> = record_field_pat_list + .bind_pats() + .filter_map(|bind_pat| { + let ast_pat = + ast::Pat::cast(bind_pat.syntax().clone()).expect("bind pat is a pat"); + let pat = self.collect_pat(ast_pat); + let name = bind_pat.name()?.as_name(); + Some(RecordFieldPat { name, pat }) + }) + .collect(); + let iter = record_field_pat_list.record_field_pats().filter_map(|f| { + let ast_pat = f.pat()?; + let pat = self.collect_pat(ast_pat); + let name = f.name()?.as_name(); + Some(RecordFieldPat { name, pat }) + }); + fields.extend(iter); + + Pat::Struct { path, args: fields } + } + + // FIXME: implement + ast::Pat::BoxPat(_) => Pat::Missing, + ast::Pat::LiteralPat(_) => Pat::Missing, + ast::Pat::SlicePat(_) | ast::Pat::RangePat(_) => Pat::Missing, + }; + let ptr = AstPtr::new(&pat); + self.alloc_pat(pattern, Either::A(ptr)) + } + + fn collect_pat_opt(&mut self, pat: Option) -> PatId { + if let Some(pat) = pat { + self.collect_pat(pat) + } else { + self.pats.alloc(Pat::Missing) + } + } + + fn collect_const_body(&mut self, node: ast::ConstDef) { + let body = self.collect_expr_opt(node.body()); + self.body_expr = Some(body); + } + + fn collect_static_body(&mut self, node: ast::StaticDef) { + let body = self.collect_expr_opt(node.body()); + self.body_expr = Some(body); + } + + fn collect_fn_body(&mut self, node: ast::FnDef) { + if let Some(param_list) = node.param_list() { + if let Some(self_param) = param_list.self_param() { + let ptr = AstPtr::new(&self_param); + let param_pat = self.alloc_pat( + Pat::Bind { + name: SELF_PARAM, + mode: BindingAnnotation::Unannotated, + subpat: None, + }, + Either::B(ptr), + ); + self.params.push(param_pat); + } + + for param in param_list.params() { + let pat = if let Some(pat) = param.pat() { + pat + } else { + continue; + }; + let param_pat = self.collect_pat(pat); + self.params.push(param_pat); + } + }; + + let body = self.collect_block_opt(node.body()); + self.body_expr = Some(body); + } + + fn finish(self) -> (Body, BodySourceMap) { + let body = Body { + owner: self.owner, + exprs: self.exprs, + pats: self.pats, + params: self.params, + body_expr: self.body_expr.expect("A body should have been collected"), + }; + (body, self.source_map) + } +} + +impl From for BinaryOp { + fn from(ast_op: ast::BinOp) -> Self { + match ast_op { + ast::BinOp::BooleanOr => BinaryOp::LogicOp(LogicOp::Or), + ast::BinOp::BooleanAnd => BinaryOp::LogicOp(LogicOp::And), + ast::BinOp::EqualityTest => BinaryOp::CmpOp(CmpOp::Eq { negated: false }), + ast::BinOp::NegatedEqualityTest => BinaryOp::CmpOp(CmpOp::Eq { negated: true }), + ast::BinOp::LesserEqualTest => { + BinaryOp::CmpOp(CmpOp::Ord { ordering: Ordering::Less, strict: false }) + } + ast::BinOp::GreaterEqualTest => { + BinaryOp::CmpOp(CmpOp::Ord { ordering: Ordering::Greater, strict: false }) + } + ast::BinOp::LesserTest => { + BinaryOp::CmpOp(CmpOp::Ord { ordering: Ordering::Less, strict: true }) + } + ast::BinOp::GreaterTest => { + BinaryOp::CmpOp(CmpOp::Ord { ordering: Ordering::Greater, strict: true }) + } + ast::BinOp::Addition => BinaryOp::ArithOp(ArithOp::Add), + ast::BinOp::Multiplication => BinaryOp::ArithOp(ArithOp::Mul), + ast::BinOp::Subtraction => BinaryOp::ArithOp(ArithOp::Sub), + ast::BinOp::Division => BinaryOp::ArithOp(ArithOp::Div), + ast::BinOp::Remainder => BinaryOp::ArithOp(ArithOp::Rem), + ast::BinOp::LeftShift => BinaryOp::ArithOp(ArithOp::Shl), + ast::BinOp::RightShift => BinaryOp::ArithOp(ArithOp::Shr), + ast::BinOp::BitwiseXor => BinaryOp::ArithOp(ArithOp::BitXor), + ast::BinOp::BitwiseOr => BinaryOp::ArithOp(ArithOp::BitOr), + ast::BinOp::BitwiseAnd => BinaryOp::ArithOp(ArithOp::BitAnd), + ast::BinOp::Assignment => BinaryOp::Assignment { op: None }, + ast::BinOp::AddAssign => BinaryOp::Assignment { op: Some(ArithOp::Add) }, + ast::BinOp::DivAssign => BinaryOp::Assignment { op: Some(ArithOp::Div) }, + ast::BinOp::MulAssign => BinaryOp::Assignment { op: Some(ArithOp::Mul) }, + ast::BinOp::RemAssign => BinaryOp::Assignment { op: Some(ArithOp::Rem) }, + ast::BinOp::ShlAssign => BinaryOp::Assignment { op: Some(ArithOp::Shl) }, + ast::BinOp::ShrAssign => BinaryOp::Assignment { op: Some(ArithOp::Shr) }, + ast::BinOp::SubAssign => BinaryOp::Assignment { op: Some(ArithOp::Sub) }, + ast::BinOp::BitOrAssign => BinaryOp::Assignment { op: Some(ArithOp::BitOr) }, + ast::BinOp::BitAndAssign => BinaryOp::Assignment { op: Some(ArithOp::BitAnd) }, + ast::BinOp::BitXorAssign => BinaryOp::Assignment { op: Some(ArithOp::BitXor) }, + } + } +} + +pub(crate) fn body_with_source_map_query( + db: &impl HirDatabase, + def: DefWithBody, +) -> (Arc, Arc) { + let mut collector; + + match def { + DefWithBody::Const(ref c) => { + let src = c.source(db); + collector = ExprCollector::new(def, src.file_id, def.resolver(db), db); + collector.collect_const_body(src.ast) + } + DefWithBody::Function(ref f) => { + let src = f.source(db); + collector = ExprCollector::new(def, src.file_id, def.resolver(db), db); + collector.collect_fn_body(src.ast) + } + DefWithBody::Static(ref s) => { + let src = s.source(db); + collector = ExprCollector::new(def, src.file_id, def.resolver(db), db); + collector.collect_static_body(src.ast) + } + } + + let (body, source_map) = collector.finish(); + (Arc::new(body), Arc::new(source_map)) +} + +pub(crate) fn body_hir_query(db: &impl HirDatabase, def: DefWithBody) -> Arc { + db.body_with_source_map(def).0 +}