//! Lookup hir elements using positions in the source code. This is a lossy //! transformation: in general, a single source might correspond to several //! modules, functions, etc, due to macros, cfgs and `#[path=]` attributes on //! modules. //! //! So, this modules should not be used during hir construction, it exists //! purely for "IDE needs". use std::iter::{self, once}; use either::Either; use hir_def::{ body::{ scope::{ExprScopes, ScopeId}, Body, BodySourceMap, }, hir::{BindingId, ExprId, Pat, PatId}, lang_item::LangItem, lower::LowerCtx, nameres::MacroSubNs, path::{ModPath, Path, PathKind}, resolver::{resolver_for_scope, Resolver, TypeNs, ValueNs}, type_ref::Mutability, AsMacroCall, AssocItemId, ConstId, DefWithBodyId, FieldId, FunctionId, ItemContainerId, LocalFieldId, Lookup, ModuleDefId, TraitId, VariantId, }; use hir_expand::{ builtin_fn_macro::BuiltinFnLikeExpander, mod_path::path, name, name::{AsName, Name}, HirFileId, InFile, MacroFileId, MacroFileIdExt, }; use hir_ty::{ diagnostics::{ record_literal_missing_fields, record_pattern_missing_fields, unsafe_expressions, UnsafeExpr, }, lang_items::lang_items_for_bin_op, method_resolution, Adjustment, InferenceResult, Interner, Substitution, Ty, TyExt, TyKind, TyLoweringContext, }; use itertools::Itertools; use smallvec::SmallVec; use syntax::{ ast::{self, AstNode}, SyntaxKind, SyntaxNode, TextRange, TextSize, }; use triomphe::Arc; use crate::{ db::HirDatabase, semantics::PathResolution, Adt, AssocItem, BindingMode, BuiltinAttr, BuiltinType, Callable, Const, DeriveHelper, Field, Function, Local, Macro, ModuleDef, Static, Struct, ToolModule, Trait, TraitAlias, TupleField, Type, TypeAlias, Variant, }; /// `SourceAnalyzer` is a convenience wrapper which exposes HIR API in terms of /// original source files. It should not be used inside the HIR itself. #[derive(Debug)] pub(crate) struct SourceAnalyzer { pub(crate) file_id: HirFileId, pub(crate) resolver: Resolver, def: Option<(DefWithBodyId, Arc, Arc)>, infer: Option>, } impl SourceAnalyzer { pub(crate) fn new_for_body( db: &dyn HirDatabase, def: DefWithBodyId, node @ InFile { file_id, .. }: InFile<&SyntaxNode>, offset: Option, ) -> SourceAnalyzer { let (body, source_map) = db.body_with_source_map(def); let scopes = db.expr_scopes(def); let scope = match offset { None => scope_for(&scopes, &source_map, node), Some(offset) => scope_for_offset(db, &scopes, &source_map, node.file_id, offset), }; let resolver = resolver_for_scope(db.upcast(), def, scope); SourceAnalyzer { resolver, def: Some((def, body, source_map)), infer: Some(db.infer(def)), file_id, } } pub(crate) fn new_for_body_no_infer( db: &dyn HirDatabase, def: DefWithBodyId, node @ InFile { file_id, .. }: InFile<&SyntaxNode>, offset: Option, ) -> SourceAnalyzer { let (body, source_map) = db.body_with_source_map(def); let scopes = db.expr_scopes(def); let scope = match offset { None => scope_for(&scopes, &source_map, node), Some(offset) => scope_for_offset(db, &scopes, &source_map, node.file_id, offset), }; let resolver = resolver_for_scope(db.upcast(), def, scope); SourceAnalyzer { resolver, def: Some((def, body, source_map)), infer: None, file_id } } pub(crate) fn new_for_resolver( resolver: Resolver, node: InFile<&SyntaxNode>, ) -> SourceAnalyzer { SourceAnalyzer { resolver, def: None, infer: None, file_id: node.file_id } } fn body_source_map(&self) -> Option<&BodySourceMap> { self.def.as_ref().map(|(.., source_map)| &**source_map) } fn body(&self) -> Option<&Body> { self.def.as_ref().map(|(_, body, _)| &**body) } fn expr_id(&self, db: &dyn HirDatabase, expr: &ast::Expr) -> Option { let src = match expr { ast::Expr::MacroExpr(expr) => { self.expand_expr(db, InFile::new(self.file_id, expr.macro_call()?))? } _ => InFile::new(self.file_id, expr.clone()), }; let sm = self.body_source_map()?; sm.node_expr(src.as_ref()) } fn pat_id(&self, pat: &ast::Pat) -> Option { // FIXME: macros, see `expr_id` let src = InFile { file_id: self.file_id, value: pat }; self.body_source_map()?.node_pat(src) } fn binding_id_of_pat(&self, pat: &ast::IdentPat) -> Option { let pat_id = self.pat_id(&pat.clone().into())?; if let Pat::Bind { id, .. } = self.body()?.pats[pat_id] { Some(id) } else { None } } fn expand_expr( &self, db: &dyn HirDatabase, expr: InFile, ) -> Option> { let macro_file = self.body_source_map()?.node_macro_file(expr.as_ref())?; let expanded = db.parse_or_expand(macro_file); let res = if let Some(stmts) = ast::MacroStmts::cast(expanded.clone()) { match stmts.expr()? { ast::Expr::MacroExpr(mac) => { self.expand_expr(db, InFile::new(macro_file, mac.macro_call()?))? } expr => InFile::new(macro_file, expr), } } else if let Some(call) = ast::MacroCall::cast(expanded.clone()) { self.expand_expr(db, InFile::new(macro_file, call))? } else { InFile::new(macro_file, ast::Expr::cast(expanded)?) }; Some(res) } pub(crate) fn expr_adjustments( &self, db: &dyn HirDatabase, expr: &ast::Expr, ) -> Option<&[Adjustment]> { let expr_id = self.expr_id(db, expr)?; let infer = self.infer.as_ref()?; infer.expr_adjustments.get(&expr_id).map(|v| &**v) } pub(crate) fn type_of_expr( &self, db: &dyn HirDatabase, expr: &ast::Expr, ) -> Option<(Type, Option)> { let expr_id = self.expr_id(db, expr)?; let infer = self.infer.as_ref()?; let coerced = infer .expr_adjustments .get(&expr_id) .and_then(|adjusts| adjusts.last().map(|adjust| adjust.target.clone())); let ty = infer[expr_id].clone(); let mk_ty = |ty| Type::new_with_resolver(db, &self.resolver, ty); Some((mk_ty(ty), coerced.map(mk_ty))) } pub(crate) fn type_of_pat( &self, db: &dyn HirDatabase, pat: &ast::Pat, ) -> Option<(Type, Option)> { let pat_id = self.pat_id(pat)?; let infer = self.infer.as_ref()?; let coerced = infer.pat_adjustments.get(&pat_id).and_then(|adjusts| adjusts.last().cloned()); let ty = infer[pat_id].clone(); let mk_ty = |ty| Type::new_with_resolver(db, &self.resolver, ty); Some((mk_ty(ty), coerced.map(mk_ty))) } pub(crate) fn type_of_binding_in_pat( &self, db: &dyn HirDatabase, pat: &ast::IdentPat, ) -> Option { let binding_id = self.binding_id_of_pat(pat)?; let infer = self.infer.as_ref()?; let ty = infer[binding_id].clone(); let mk_ty = |ty| Type::new_with_resolver(db, &self.resolver, ty); Some(mk_ty(ty)) } pub(crate) fn type_of_self( &self, db: &dyn HirDatabase, param: &ast::SelfParam, ) -> Option { let src = InFile { file_id: self.file_id, value: param }; let pat_id = self.body_source_map()?.node_self_param(src)?; let ty = self.infer.as_ref()?[pat_id].clone(); Some(Type::new_with_resolver(db, &self.resolver, ty)) } pub(crate) fn binding_mode_of_pat( &self, _db: &dyn HirDatabase, pat: &ast::IdentPat, ) -> Option { let id = self.pat_id(&pat.clone().into())?; let infer = self.infer.as_ref()?; infer.binding_modes.get(id).map(|bm| match bm { hir_ty::BindingMode::Move => BindingMode::Move, hir_ty::BindingMode::Ref(hir_ty::Mutability::Mut) => BindingMode::Ref(Mutability::Mut), hir_ty::BindingMode::Ref(hir_ty::Mutability::Not) => { BindingMode::Ref(Mutability::Shared) } }) } pub(crate) fn pattern_adjustments( &self, db: &dyn HirDatabase, pat: &ast::Pat, ) -> Option> { let pat_id = self.pat_id(pat)?; let infer = self.infer.as_ref()?; Some( infer .pat_adjustments .get(&pat_id)? .iter() .map(|ty| Type::new_with_resolver(db, &self.resolver, ty.clone())) .collect(), ) } pub(crate) fn resolve_method_call_as_callable( &self, db: &dyn HirDatabase, call: &ast::MethodCallExpr, ) -> Option { let expr_id = self.expr_id(db, &call.clone().into())?; let (func, substs) = self.infer.as_ref()?.method_resolution(expr_id)?; let ty = db.value_ty(func.into())?.substitute(Interner, &substs); let ty = Type::new_with_resolver(db, &self.resolver, ty); let mut res = ty.as_callable(db)?; res.is_bound_method = true; Some(res) } pub(crate) fn resolve_method_call( &self, db: &dyn HirDatabase, call: &ast::MethodCallExpr, ) -> Option { let expr_id = self.expr_id(db, &call.clone().into())?; let (f_in_trait, substs) = self.infer.as_ref()?.method_resolution(expr_id)?; Some(self.resolve_impl_method_or_trait_def(db, f_in_trait, substs).into()) } pub(crate) fn resolve_method_call_fallback( &self, db: &dyn HirDatabase, call: &ast::MethodCallExpr, ) -> Option> { let expr_id = self.expr_id(db, &call.clone().into())?; let inference_result = self.infer.as_ref()?; match inference_result.method_resolution(expr_id) { Some((f_in_trait, substs)) => Some(Either::Left( self.resolve_impl_method_or_trait_def(db, f_in_trait, substs).into(), )), None => inference_result .field_resolution(expr_id) .and_then(Either::left) .map(Into::into) .map(Either::Right), } } pub(crate) fn resolve_field( &self, db: &dyn HirDatabase, field: &ast::FieldExpr, ) -> Option> { let &(def, ..) = self.def.as_ref()?; let expr_id = self.expr_id(db, &field.clone().into())?; self.infer.as_ref()?.field_resolution(expr_id).map(|it| { it.map_either(Into::into, |f| TupleField { owner: def, tuple: f.tuple, index: f.index }) }) } pub(crate) fn resolve_field_fallback( &self, db: &dyn HirDatabase, field: &ast::FieldExpr, ) -> Option, Function>> { let &(def, ..) = self.def.as_ref()?; let expr_id = self.expr_id(db, &field.clone().into())?; let inference_result = self.infer.as_ref()?; match inference_result.field_resolution(expr_id) { Some(field) => Some(Either::Left(field.map_either(Into::into, |f| TupleField { owner: def, tuple: f.tuple, index: f.index, }))), None => inference_result.method_resolution(expr_id).map(|(f, substs)| { Either::Right(self.resolve_impl_method_or_trait_def(db, f, substs).into()) }), } } pub(crate) fn resolve_await_to_poll( &self, db: &dyn HirDatabase, await_expr: &ast::AwaitExpr, ) -> Option { let mut ty = self.ty_of_expr(db, &await_expr.expr()?)?.clone(); let into_future_trait = self .resolver .resolve_known_trait(db.upcast(), &path![core::future::IntoFuture]) .map(Trait::from); if let Some(into_future_trait) = into_future_trait { let type_ = Type::new_with_resolver(db, &self.resolver, ty.clone()); if type_.impls_trait(db, into_future_trait, &[]) { let items = into_future_trait.items(db); let into_future_type = items.into_iter().find_map(|item| match item { AssocItem::TypeAlias(alias) if alias.name(db) == hir_expand::name![IntoFuture] => { Some(alias) } _ => None, })?; let future_trait = type_.normalize_trait_assoc_type(db, &[], into_future_type)?; ty = future_trait.ty; } } let future_trait = db.lang_item(self.resolver.krate(), LangItem::Future)?.as_trait()?; let poll_fn = db.lang_item(self.resolver.krate(), LangItem::FuturePoll)?.as_function()?; // HACK: subst for `poll()` coincides with that for `Future` because `poll()` itself // doesn't have any generic parameters, so we skip building another subst for `poll()`. let substs = hir_ty::TyBuilder::subst_for_def(db, future_trait, None).push(ty).build(); Some(self.resolve_impl_method_or_trait_def(db, poll_fn, substs)) } pub(crate) fn resolve_prefix_expr( &self, db: &dyn HirDatabase, prefix_expr: &ast::PrefixExpr, ) -> Option { let (lang_item, fn_name) = match prefix_expr.op_kind()? { ast::UnaryOp::Deref => (LangItem::Deref, name![deref]), ast::UnaryOp::Not => (LangItem::Not, name![not]), ast::UnaryOp::Neg => (LangItem::Neg, name![neg]), }; let ty = self.ty_of_expr(db, &prefix_expr.expr()?)?; let (op_trait, op_fn) = self.lang_trait_fn(db, lang_item, &fn_name)?; // HACK: subst for all methods coincides with that for their trait because the methods // don't have any generic parameters, so we skip building another subst for the methods. let substs = hir_ty::TyBuilder::subst_for_def(db, op_trait, None).push(ty.clone()).build(); Some(self.resolve_impl_method_or_trait_def(db, op_fn, substs)) } pub(crate) fn resolve_index_expr( &self, db: &dyn HirDatabase, index_expr: &ast::IndexExpr, ) -> Option { let base_ty = self.ty_of_expr(db, &index_expr.base()?)?; let index_ty = self.ty_of_expr(db, &index_expr.index()?)?; let (op_trait, op_fn) = self.lang_trait_fn(db, LangItem::Index, &name![index])?; // HACK: subst for all methods coincides with that for their trait because the methods // don't have any generic parameters, so we skip building another subst for the methods. let substs = hir_ty::TyBuilder::subst_for_def(db, op_trait, None) .push(base_ty.clone()) .push(index_ty.clone()) .build(); Some(self.resolve_impl_method_or_trait_def(db, op_fn, substs)) } pub(crate) fn resolve_bin_expr( &self, db: &dyn HirDatabase, binop_expr: &ast::BinExpr, ) -> Option { let op = binop_expr.op_kind()?; let lhs = self.ty_of_expr(db, &binop_expr.lhs()?)?; let rhs = self.ty_of_expr(db, &binop_expr.rhs()?)?; let (op_trait, op_fn) = lang_items_for_bin_op(op) .and_then(|(name, lang_item)| self.lang_trait_fn(db, lang_item, &name))?; // HACK: subst for `index()` coincides with that for `Index` because `index()` itself // doesn't have any generic parameters, so we skip building another subst for `index()`. let substs = hir_ty::TyBuilder::subst_for_def(db, op_trait, None) .push(lhs.clone()) .push(rhs.clone()) .build(); Some(self.resolve_impl_method_or_trait_def(db, op_fn, substs)) } pub(crate) fn resolve_try_expr( &self, db: &dyn HirDatabase, try_expr: &ast::TryExpr, ) -> Option { let ty = self.ty_of_expr(db, &try_expr.expr()?)?; let op_fn = db.lang_item(self.resolver.krate(), LangItem::TryTraitBranch)?.as_function()?; let op_trait = match op_fn.lookup(db.upcast()).container { ItemContainerId::TraitId(id) => id, _ => return None, }; // HACK: subst for `branch()` coincides with that for `Try` because `branch()` itself // doesn't have any generic parameters, so we skip building another subst for `branch()`. let substs = hir_ty::TyBuilder::subst_for_def(db, op_trait, None).push(ty.clone()).build(); Some(self.resolve_impl_method_or_trait_def(db, op_fn, substs)) } pub(crate) fn resolve_record_field( &self, db: &dyn HirDatabase, field: &ast::RecordExprField, ) -> Option<(Field, Option, Type)> { let record_expr = ast::RecordExpr::cast(field.syntax().parent().and_then(|p| p.parent())?)?; let expr = ast::Expr::from(record_expr); let expr_id = self.body_source_map()?.node_expr(InFile::new(self.file_id, &expr))?; let local_name = field.field_name()?.as_name(); let local = if field.name_ref().is_some() { None } else { // Shorthand syntax, resolve to the local let path = Path::from_known_path_with_no_generic(ModPath::from_segments( PathKind::Plain, once(local_name.clone()), )); match self.resolver.resolve_path_in_value_ns_fully(db.upcast(), &path) { Some(ValueNs::LocalBinding(binding_id)) => { Some(Local { binding_id, parent: self.resolver.body_owner()? }) } _ => None, } }; let (_, subst) = self.infer.as_ref()?.type_of_expr.get(expr_id)?.as_adt()?; let variant = self.infer.as_ref()?.variant_resolution_for_expr(expr_id)?; let variant_data = variant.variant_data(db.upcast()); let field = FieldId { parent: variant, local_id: variant_data.field(&local_name)? }; let field_ty = db.field_types(variant).get(field.local_id)?.clone().substitute(Interner, subst); Some((field.into(), local, Type::new_with_resolver(db, &self.resolver, field_ty))) } pub(crate) fn resolve_record_pat_field( &self, db: &dyn HirDatabase, field: &ast::RecordPatField, ) -> Option<(Field, Type)> { let field_name = field.field_name()?.as_name(); let record_pat = ast::RecordPat::cast(field.syntax().parent().and_then(|p| p.parent())?)?; let pat_id = self.pat_id(&record_pat.into())?; let variant = self.infer.as_ref()?.variant_resolution_for_pat(pat_id)?; let variant_data = variant.variant_data(db.upcast()); let field = FieldId { parent: variant, local_id: variant_data.field(&field_name)? }; let (_, subst) = self.infer.as_ref()?.type_of_pat.get(pat_id)?.as_adt()?; let field_ty = db.field_types(variant).get(field.local_id)?.clone().substitute(Interner, subst); Some((field.into(), Type::new_with_resolver(db, &self.resolver, field_ty))) } pub(crate) fn resolve_macro_call( &self, db: &dyn HirDatabase, macro_call: InFile<&ast::MacroCall>, ) -> Option { let ctx = LowerCtx::with_file_id(db.upcast(), macro_call.file_id); let path = macro_call.value.path().and_then(|ast| Path::from_src(&ctx, ast))?; self.resolver .resolve_path_as_macro(db.upcast(), path.mod_path()?, Some(MacroSubNs::Bang)) .map(|(it, _)| it.into()) } pub(crate) fn resolve_bind_pat_to_const( &self, db: &dyn HirDatabase, pat: &ast::IdentPat, ) -> Option { let pat_id = self.pat_id(&pat.clone().into())?; let body = self.body()?; let path = match &body[pat_id] { Pat::Path(path) => path, _ => return None, }; let res = resolve_hir_path(db, &self.resolver, path)?; match res { PathResolution::Def(def) => Some(def), _ => None, } } pub(crate) fn resolve_path( &self, db: &dyn HirDatabase, path: &ast::Path, ) -> Option { let parent = path.syntax().parent(); let parent = || parent.clone(); let mut prefer_value_ns = false; let resolved = (|| { let infer = self.infer.as_deref()?; if let Some(path_expr) = parent().and_then(ast::PathExpr::cast) { let expr_id = self.expr_id(db, &path_expr.into())?; if let Some((assoc, subs)) = infer.assoc_resolutions_for_expr(expr_id) { let assoc = match assoc { AssocItemId::FunctionId(f_in_trait) => { match infer.type_of_expr.get(expr_id) { None => assoc, Some(func_ty) => { if let TyKind::FnDef(_fn_def, subs) = func_ty.kind(Interner) { self.resolve_impl_method_or_trait_def( db, f_in_trait, subs.clone(), ) .into() } else { assoc } } } } AssocItemId::ConstId(const_id) => { self.resolve_impl_const_or_trait_def(db, const_id, subs).into() } assoc => assoc, }; return Some(PathResolution::Def(AssocItem::from(assoc).into())); } if let Some(VariantId::EnumVariantId(variant)) = infer.variant_resolution_for_expr(expr_id) { return Some(PathResolution::Def(ModuleDef::Variant(variant.into()))); } prefer_value_ns = true; } else if let Some(path_pat) = parent().and_then(ast::PathPat::cast) { let pat_id = self.pat_id(&path_pat.into())?; if let Some((assoc, subs)) = infer.assoc_resolutions_for_pat(pat_id) { let assoc = match assoc { AssocItemId::ConstId(const_id) => { self.resolve_impl_const_or_trait_def(db, const_id, subs).into() } assoc => assoc, }; return Some(PathResolution::Def(AssocItem::from(assoc).into())); } if let Some(VariantId::EnumVariantId(variant)) = infer.variant_resolution_for_pat(pat_id) { return Some(PathResolution::Def(ModuleDef::Variant(variant.into()))); } } else if let Some(rec_lit) = parent().and_then(ast::RecordExpr::cast) { let expr_id = self.expr_id(db, &rec_lit.into())?; if let Some(VariantId::EnumVariantId(variant)) = infer.variant_resolution_for_expr(expr_id) { return Some(PathResolution::Def(ModuleDef::Variant(variant.into()))); } } else { let record_pat = parent().and_then(ast::RecordPat::cast).map(ast::Pat::from); let tuple_struct_pat = || parent().and_then(ast::TupleStructPat::cast).map(ast::Pat::from); if let Some(pat) = record_pat.or_else(tuple_struct_pat) { let pat_id = self.pat_id(&pat)?; let variant_res_for_pat = infer.variant_resolution_for_pat(pat_id); if let Some(VariantId::EnumVariantId(variant)) = variant_res_for_pat { return Some(PathResolution::Def(ModuleDef::Variant(variant.into()))); } } } None })(); if resolved.is_some() { return resolved; } // This must be a normal source file rather than macro file. let ctx = LowerCtx::with_span_map(db.upcast(), db.span_map(self.file_id)); let hir_path = Path::from_src(&ctx, path.clone())?; // Case where path is a qualifier of a use tree, e.g. foo::bar::{Baz, Qux} where we are // trying to resolve foo::bar. if let Some(use_tree) = parent().and_then(ast::UseTree::cast) { if use_tree.coloncolon_token().is_some() { return resolve_hir_path_qualifier(db, &self.resolver, &hir_path); } } let meta_path = path .syntax() .ancestors() .take_while(|it| { let kind = it.kind(); ast::Path::can_cast(kind) || ast::Meta::can_cast(kind) }) .last() .and_then(ast::Meta::cast); // Case where path is a qualifier of another path, e.g. foo::bar::Baz where we are // trying to resolve foo::bar. if path.parent_path().is_some() { return match resolve_hir_path_qualifier(db, &self.resolver, &hir_path) { None if meta_path.is_some() => { path.first_segment().and_then(|it| it.name_ref()).and_then(|name_ref| { ToolModule::by_name(db, self.resolver.krate().into(), &name_ref.text()) .map(PathResolution::ToolModule) }) } res => res, }; } else if let Some(meta_path) = meta_path { // Case where we are resolving the final path segment of a path in an attribute // in this case we have to check for inert/builtin attributes and tools and prioritize // resolution of attributes over other namespaces if let Some(name_ref) = path.as_single_name_ref() { let builtin = BuiltinAttr::by_name(db, self.resolver.krate().into(), &name_ref.text()); if builtin.is_some() { return builtin.map(PathResolution::BuiltinAttr); } if let Some(attr) = meta_path.parent_attr() { let adt = if let Some(field) = attr.syntax().parent().and_then(ast::RecordField::cast) { field.syntax().ancestors().take(4).find_map(ast::Adt::cast) } else if let Some(field) = attr.syntax().parent().and_then(ast::TupleField::cast) { field.syntax().ancestors().take(4).find_map(ast::Adt::cast) } else if let Some(variant) = attr.syntax().parent().and_then(ast::Variant::cast) { variant.syntax().ancestors().nth(2).and_then(ast::Adt::cast) } else { None }; if let Some(adt) = adt { let ast_id = db.ast_id_map(self.file_id).ast_id(&adt); if let Some(helpers) = self .resolver .def_map() .derive_helpers_in_scope(InFile::new(self.file_id, ast_id)) { // FIXME: Multiple derives can have the same helper let name_ref = name_ref.as_name(); for (macro_id, mut helpers) in helpers.iter().group_by(|(_, macro_id, ..)| macro_id).into_iter() { if let Some(idx) = helpers.position(|(name, ..)| *name == name_ref) { return Some(PathResolution::DeriveHelper(DeriveHelper { derive: *macro_id, idx: idx as u32, })); } } } } } } return match resolve_hir_path_as_attr_macro(db, &self.resolver, &hir_path) { Some(m) => Some(PathResolution::Def(ModuleDef::Macro(m))), // this labels any path that starts with a tool module as the tool itself, this is technically wrong // but there is no benefit in differentiating these two cases for the time being None => path.first_segment().and_then(|it| it.name_ref()).and_then(|name_ref| { ToolModule::by_name(db, self.resolver.krate().into(), &name_ref.text()) .map(PathResolution::ToolModule) }), }; } if parent().map_or(false, |it| ast::Visibility::can_cast(it.kind())) { resolve_hir_path_qualifier(db, &self.resolver, &hir_path) } else { resolve_hir_path_(db, &self.resolver, &hir_path, prefer_value_ns) } } pub(crate) fn record_literal_missing_fields( &self, db: &dyn HirDatabase, literal: &ast::RecordExpr, ) -> Option> { let body = self.body()?; let infer = self.infer.as_ref()?; let expr_id = self.expr_id(db, &literal.clone().into())?; let substs = infer.type_of_expr[expr_id].as_adt()?.1; let (variant, missing_fields, _exhaustive) = record_literal_missing_fields(db, infer, expr_id, &body[expr_id])?; let res = self.missing_fields(db, substs, variant, missing_fields); Some(res) } pub(crate) fn record_pattern_missing_fields( &self, db: &dyn HirDatabase, pattern: &ast::RecordPat, ) -> Option> { let body = self.body()?; let infer = self.infer.as_ref()?; let pat_id = self.pat_id(&pattern.clone().into())?; let substs = infer.type_of_pat[pat_id].as_adt()?.1; let (variant, missing_fields, _exhaustive) = record_pattern_missing_fields(db, infer, pat_id, &body[pat_id])?; let res = self.missing_fields(db, substs, variant, missing_fields); Some(res) } fn missing_fields( &self, db: &dyn HirDatabase, substs: &Substitution, variant: VariantId, missing_fields: Vec, ) -> Vec<(Field, Type)> { let field_types = db.field_types(variant); missing_fields .into_iter() .map(|local_id| { let field = FieldId { parent: variant, local_id }; let ty = field_types[local_id].clone().substitute(Interner, substs); (field.into(), Type::new_with_resolver_inner(db, &self.resolver, ty)) }) .collect() } pub(crate) fn expand( &self, db: &dyn HirDatabase, macro_call: InFile<&ast::MacroCall>, ) -> Option { let krate = self.resolver.krate(); let macro_call_id = macro_call.as_call_id(db.upcast(), krate, |path| { self.resolver.resolve_path_as_macro_def(db.upcast(), &path, Some(MacroSubNs::Bang)) })?; // why the 64? Some(macro_call_id.as_macro_file()).filter(|it| it.expansion_level(db.upcast()) < 64) } pub(crate) fn resolve_variant( &self, db: &dyn HirDatabase, record_lit: ast::RecordExpr, ) -> Option { let infer = self.infer.as_ref()?; let expr_id = self.expr_id(db, &record_lit.into())?; infer.variant_resolution_for_expr(expr_id) } pub(crate) fn is_unsafe_macro_call( &self, db: &dyn HirDatabase, macro_call: InFile<&ast::MacroCall>, ) -> bool { // check for asm/global_asm if let Some(mac) = self.resolve_macro_call(db, macro_call) { let ex = match mac.id { hir_def::MacroId::Macro2Id(it) => it.lookup(db.upcast()).expander, hir_def::MacroId::MacroRulesId(it) => it.lookup(db.upcast()).expander, _ => hir_def::MacroExpander::Declarative, }; match ex { hir_def::MacroExpander::BuiltIn(e) if e == BuiltinFnLikeExpander::Asm || e == BuiltinFnLikeExpander::GlobalAsm => { return true } _ => (), } } let macro_expr = match macro_call .map(|it| it.syntax().parent().and_then(ast::MacroExpr::cast)) .transpose() { Some(it) => it, None => return false, }; if let (Some((def, body, sm)), Some(infer)) = (&self.def, &self.infer) { if let Some(expanded_expr) = sm.macro_expansion_expr(macro_expr.as_ref()) { let mut is_unsafe = false; unsafe_expressions( db, infer, *def, body, expanded_expr, &mut |UnsafeExpr { inside_unsafe_block, .. }| is_unsafe |= !inside_unsafe_block, ); return is_unsafe; } } false } pub(crate) fn resolve_offset_in_format_args( &self, db: &dyn HirDatabase, format_args: InFile<&ast::FormatArgsExpr>, offset: TextSize, ) -> Option<(TextRange, Option)> { let implicits = self.body_source_map()?.implicit_format_args(format_args)?; implicits.iter().find(|(range, _)| range.contains_inclusive(offset)).map(|(range, name)| { ( *range, resolve_hir_value_path( db, &self.resolver, self.resolver.body_owner(), &Path::from_known_path_with_no_generic(ModPath::from_segments( PathKind::Plain, Some(name.clone()), )), ), ) }) } pub(crate) fn as_format_args_parts<'a>( &'a self, db: &'a dyn HirDatabase, format_args: InFile<&ast::FormatArgsExpr>, ) -> Option)> + 'a> { Some(self.body_source_map()?.implicit_format_args(format_args)?.iter().map( move |(range, name)| { ( *range, resolve_hir_value_path( db, &self.resolver, self.resolver.body_owner(), &Path::from_known_path_with_no_generic(ModPath::from_segments( PathKind::Plain, Some(name.clone()), )), ), ) }, )) } fn resolve_impl_method_or_trait_def( &self, db: &dyn HirDatabase, func: FunctionId, substs: Substitution, ) -> FunctionId { let owner = match self.resolver.body_owner() { Some(it) => it, None => return func, }; let env = db.trait_environment_for_body(owner); db.lookup_impl_method(env, func, substs).0 } fn resolve_impl_const_or_trait_def( &self, db: &dyn HirDatabase, const_id: ConstId, subs: Substitution, ) -> ConstId { let owner = match self.resolver.body_owner() { Some(it) => it, None => return const_id, }; let env = db.trait_environment_for_body(owner); method_resolution::lookup_impl_const(db, env, const_id, subs).0 } fn lang_trait_fn( &self, db: &dyn HirDatabase, lang_trait: LangItem, method_name: &Name, ) -> Option<(TraitId, FunctionId)> { let trait_id = db.lang_item(self.resolver.krate(), lang_trait)?.as_trait()?; let fn_id = db.trait_data(trait_id).method_by_name(method_name)?; Some((trait_id, fn_id)) } fn ty_of_expr(&self, db: &dyn HirDatabase, expr: &ast::Expr) -> Option<&Ty> { self.infer.as_ref()?.type_of_expr.get(self.expr_id(db, expr)?) } } fn scope_for( scopes: &ExprScopes, source_map: &BodySourceMap, node: InFile<&SyntaxNode>, ) -> Option { node.value .ancestors() .filter_map(ast::Expr::cast) .filter_map(|it| source_map.node_expr(InFile::new(node.file_id, &it))) .find_map(|it| scopes.scope_for(it)) } fn scope_for_offset( db: &dyn HirDatabase, scopes: &ExprScopes, source_map: &BodySourceMap, from_file: HirFileId, offset: TextSize, ) -> Option { scopes .scope_by_expr() .iter() .filter_map(|(id, scope)| { let InFile { file_id, value } = source_map.expr_syntax(id).ok()?; if from_file == file_id { return Some((value.text_range(), scope)); } // FIXME handle attribute expansion let source = iter::successors(file_id.macro_file().map(|it| it.call_node(db.upcast())), |it| { Some(it.file_id.macro_file()?.call_node(db.upcast())) }) .find(|it| it.file_id == from_file) .filter(|it| it.value.kind() == SyntaxKind::MACRO_CALL)?; Some((source.value.text_range(), scope)) }) .filter(|(expr_range, _scope)| expr_range.start() <= offset && offset <= expr_range.end()) // find containing scope .min_by_key(|(expr_range, _scope)| expr_range.len()) .map(|(expr_range, scope)| { adjust(db, scopes, source_map, expr_range, from_file, offset).unwrap_or(*scope) }) } // XXX: during completion, cursor might be outside of any particular // expression. Try to figure out the correct scope... fn adjust( db: &dyn HirDatabase, scopes: &ExprScopes, source_map: &BodySourceMap, expr_range: TextRange, from_file: HirFileId, offset: TextSize, ) -> Option { let child_scopes = scopes .scope_by_expr() .iter() .filter_map(|(id, scope)| { let source = source_map.expr_syntax(id).ok()?; // FIXME: correctly handle macro expansion if source.file_id != from_file { return None; } let root = source.file_syntax(db.upcast()); let node = source.value.to_node(&root); Some((node.syntax().text_range(), scope)) }) .filter(|&(range, _)| { range.start() <= offset && expr_range.contains_range(range) && range != expr_range }); child_scopes .max_by(|&(r1, _), &(r2, _)| { if r1.contains_range(r2) { std::cmp::Ordering::Greater } else if r2.contains_range(r1) { std::cmp::Ordering::Less } else { r1.start().cmp(&r2.start()) } }) .map(|(_ptr, scope)| *scope) } #[inline] pub(crate) fn resolve_hir_path( db: &dyn HirDatabase, resolver: &Resolver, path: &Path, ) -> Option { resolve_hir_path_(db, resolver, path, false) } #[inline] pub(crate) fn resolve_hir_path_as_attr_macro( db: &dyn HirDatabase, resolver: &Resolver, path: &Path, ) -> Option { resolver .resolve_path_as_macro(db.upcast(), path.mod_path()?, Some(MacroSubNs::Attr)) .map(|(it, _)| it) .map(Into::into) } fn resolve_hir_path_( db: &dyn HirDatabase, resolver: &Resolver, path: &Path, prefer_value_ns: bool, ) -> Option { let types = || { let (ty, unresolved) = match path.type_anchor() { Some(type_ref) => { let (_, res) = TyLoweringContext::new_maybe_unowned(db, resolver, resolver.type_owner()) .lower_ty_ext(type_ref); res.map(|ty_ns| (ty_ns, path.segments().first())) } None => { let (ty, remaining_idx, _) = resolver.resolve_path_in_type_ns(db.upcast(), path)?; match remaining_idx { Some(remaining_idx) => { if remaining_idx + 1 == path.segments().len() { Some((ty, path.segments().last())) } else { None } } None => Some((ty, None)), } } }?; // If we are in a TypeNs for a Trait, and we have an unresolved name, try to resolve it as a type // within the trait's associated types. if let (Some(unresolved), &TypeNs::TraitId(trait_id)) = (&unresolved, &ty) { if let Some(type_alias_id) = db.trait_data(trait_id).associated_type_by_name(unresolved.name) { return Some(PathResolution::Def(ModuleDefId::from(type_alias_id).into())); } } let res = match ty { TypeNs::SelfType(it) => PathResolution::SelfType(it.into()), TypeNs::GenericParam(id) => PathResolution::TypeParam(id.into()), TypeNs::AdtSelfType(it) | TypeNs::AdtId(it) => { PathResolution::Def(Adt::from(it).into()) } TypeNs::EnumVariantId(it) => PathResolution::Def(Variant::from(it).into()), TypeNs::TypeAliasId(it) => PathResolution::Def(TypeAlias::from(it).into()), TypeNs::BuiltinType(it) => PathResolution::Def(BuiltinType::from(it).into()), TypeNs::TraitId(it) => PathResolution::Def(Trait::from(it).into()), TypeNs::TraitAliasId(it) => PathResolution::Def(TraitAlias::from(it).into()), }; match unresolved { Some(unresolved) => resolver .generic_def() .and_then(|def| { hir_ty::associated_type_shorthand_candidates( db, def, res.in_type_ns()?, |name, id| (name == unresolved.name).then_some(id), ) }) .map(TypeAlias::from) .map(Into::into) .map(PathResolution::Def), None => Some(res), } }; let body_owner = resolver.body_owner(); let values = || resolve_hir_value_path(db, resolver, body_owner, path); let items = || { resolver .resolve_module_path_in_items(db.upcast(), path.mod_path()?) .take_types() .map(|it| PathResolution::Def(it.into())) }; let macros = || { resolver .resolve_path_as_macro(db.upcast(), path.mod_path()?, None) .map(|(def, _)| PathResolution::Def(ModuleDef::Macro(def.into()))) }; if prefer_value_ns { values().or_else(types) } else { types().or_else(values) } .or_else(items) .or_else(macros) } fn resolve_hir_value_path( db: &dyn HirDatabase, resolver: &Resolver, body_owner: Option, path: &Path, ) -> Option { resolver.resolve_path_in_value_ns_fully(db.upcast(), path).and_then(|val| { let res = match val { ValueNs::LocalBinding(binding_id) => { let var = Local { parent: body_owner?, binding_id }; PathResolution::Local(var) } ValueNs::FunctionId(it) => PathResolution::Def(Function::from(it).into()), ValueNs::ConstId(it) => PathResolution::Def(Const::from(it).into()), ValueNs::StaticId(it) => PathResolution::Def(Static::from(it).into()), ValueNs::StructId(it) => PathResolution::Def(Struct::from(it).into()), ValueNs::EnumVariantId(it) => PathResolution::Def(Variant::from(it).into()), ValueNs::ImplSelf(impl_id) => PathResolution::SelfType(impl_id.into()), ValueNs::GenericParam(id) => PathResolution::ConstParam(id.into()), }; Some(res) }) } /// Resolves a path where we know it is a qualifier of another path. /// /// For example, if we have: /// ``` /// mod my { /// pub mod foo { /// struct Bar; /// } /// /// pub fn foo() {} /// } /// ``` /// then we know that `foo` in `my::foo::Bar` refers to the module, not the function. fn resolve_hir_path_qualifier( db: &dyn HirDatabase, resolver: &Resolver, path: &Path, ) -> Option { (|| { let (ty, unresolved) = match path.type_anchor() { Some(type_ref) => { let (_, res) = TyLoweringContext::new_maybe_unowned(db, resolver, resolver.type_owner()) .lower_ty_ext(type_ref); res.map(|ty_ns| (ty_ns, path.segments().first())) } None => { let (ty, remaining_idx, _) = resolver.resolve_path_in_type_ns(db.upcast(), path)?; match remaining_idx { Some(remaining_idx) => { if remaining_idx + 1 == path.segments().len() { Some((ty, path.segments().last())) } else { None } } None => Some((ty, None)), } } }?; // If we are in a TypeNs for a Trait, and we have an unresolved name, try to resolve it as a type // within the trait's associated types. if let (Some(unresolved), &TypeNs::TraitId(trait_id)) = (&unresolved, &ty) { if let Some(type_alias_id) = db.trait_data(trait_id).associated_type_by_name(unresolved.name) { return Some(PathResolution::Def(ModuleDefId::from(type_alias_id).into())); } } let res = match ty { TypeNs::SelfType(it) => PathResolution::SelfType(it.into()), TypeNs::GenericParam(id) => PathResolution::TypeParam(id.into()), TypeNs::AdtSelfType(it) | TypeNs::AdtId(it) => { PathResolution::Def(Adt::from(it).into()) } TypeNs::EnumVariantId(it) => PathResolution::Def(Variant::from(it).into()), TypeNs::TypeAliasId(it) => PathResolution::Def(TypeAlias::from(it).into()), TypeNs::BuiltinType(it) => PathResolution::Def(BuiltinType::from(it).into()), TypeNs::TraitId(it) => PathResolution::Def(Trait::from(it).into()), TypeNs::TraitAliasId(it) => PathResolution::Def(TraitAlias::from(it).into()), }; match unresolved { Some(unresolved) => resolver .generic_def() .and_then(|def| { hir_ty::associated_type_shorthand_candidates( db, def, res.in_type_ns()?, |name, id| (name == unresolved.name).then_some(id), ) }) .map(TypeAlias::from) .map(Into::into) .map(PathResolution::Def), None => Some(res), } })() .or_else(|| { resolver .resolve_module_path_in_items(db.upcast(), path.mod_path()?) .take_types() .map(|it| PathResolution::Def(it.into())) }) }