use super::{ItemTree, ModItem, ModKind}; use crate::{db::DefDatabase, test_db::TestDB}; use hir_expand::{db::AstDatabase, HirFileId, InFile}; use insta::assert_snapshot; use ra_db::fixture::WithFixture; use ra_syntax::{ast, AstNode}; use rustc_hash::FxHashSet; use std::sync::Arc; use stdx::format_to; fn test_inner_items(ra_fixture: &str) { let (db, file_id) = TestDB::with_single_file(ra_fixture); let file_id = HirFileId::from(file_id); let tree = db.item_tree(file_id); let root = db.parse_or_expand(file_id).unwrap(); let ast_id_map = db.ast_id_map(file_id); // Traverse the item tree and collect all module/impl/trait-level items as AST nodes. let mut outer_items = FxHashSet::default(); let mut worklist = tree.top_level_items().to_vec(); while let Some(item) = worklist.pop() { let node: ast::ModuleItem = match item { ModItem::Import(it) => tree.source(&db, InFile::new(file_id, it)).into(), ModItem::ExternCrate(it) => tree.source(&db, InFile::new(file_id, it)).into(), ModItem::Function(it) => tree.source(&db, InFile::new(file_id, it)).into(), ModItem::Struct(it) => tree.source(&db, InFile::new(file_id, it)).into(), ModItem::Union(it) => tree.source(&db, InFile::new(file_id, it)).into(), ModItem::Enum(it) => tree.source(&db, InFile::new(file_id, it)).into(), ModItem::Const(it) => tree.source(&db, InFile::new(file_id, it)).into(), ModItem::Static(it) => tree.source(&db, InFile::new(file_id, it)).into(), ModItem::TypeAlias(it) => tree.source(&db, InFile::new(file_id, it)).into(), ModItem::Mod(it) => { if let ModKind::Inline { items } = &tree[it].kind { worklist.extend(&**items); } tree.source(&db, InFile::new(file_id, it)).into() } ModItem::Trait(it) => { worklist.extend(tree[it].items.iter().map(|item| ModItem::from(*item))); tree.source(&db, InFile::new(file_id, it)).into() } ModItem::Impl(it) => { worklist.extend(tree[it].items.iter().map(|item| ModItem::from(*item))); tree.source(&db, InFile::new(file_id, it)).into() } ModItem::MacroCall(_) => continue, }; outer_items.insert(node); } // Now descend the root node and check that all `ast::ModuleItem`s are either recorded above, or // registered as inner items. for item in root.descendants().skip(1).filter_map(ast::ModuleItem::cast) { if outer_items.contains(&item) { continue; } let ast_id = ast_id_map.ast_id(&item); assert!(!tree.inner_items(ast_id).is_empty()); } } fn item_tree(ra_fixture: &str) -> Arc { let (db, file_id) = TestDB::with_single_file(ra_fixture); db.item_tree(file_id.into()) } fn print_item_tree(ra_fixture: &str) -> String { let tree = item_tree(ra_fixture); let mut out = String::new(); format_to!(out, "inner attrs: {:?}\n\n", tree.top_level_attrs()); format_to!(out, "top-level items:\n"); for item in tree.top_level_items() { fmt_mod_item(&mut out, &tree, *item); format_to!(out, "\n"); } if !tree.inner_items.is_empty() { format_to!(out, "\ninner items:\n\n"); for (ast_id, items) in &tree.inner_items { format_to!(out, "for AST {:?}:\n", ast_id); for inner in items { fmt_mod_item(&mut out, &tree, *inner); format_to!(out, "\n\n"); } } } out } fn fmt_mod_item(out: &mut String, tree: &ItemTree, item: ModItem) { let attrs = tree.attrs(item); if !attrs.is_empty() { format_to!(out, "#[{:?}]\n", attrs); } let mut children = String::new(); match item { ModItem::ExternCrate(it) => { format_to!(out, "{:?}", tree[it]); } ModItem::Import(it) => { format_to!(out, "{:?}", tree[it]); } ModItem::Function(it) => { format_to!(out, "{:?}", tree[it]); } ModItem::Struct(it) => { format_to!(out, "{:?}", tree[it]); } ModItem::Union(it) => { format_to!(out, "{:?}", tree[it]); } ModItem::Enum(it) => { format_to!(out, "{:?}", tree[it]); } ModItem::Const(it) => { format_to!(out, "{:?}", tree[it]); } ModItem::Static(it) => { format_to!(out, "{:?}", tree[it]); } ModItem::Trait(it) => { format_to!(out, "{:?}", tree[it]); for item in &*tree[it].items { fmt_mod_item(&mut children, tree, ModItem::from(*item)); format_to!(children, "\n"); } } ModItem::Impl(it) => { format_to!(out, "{:?}", tree[it]); for item in &*tree[it].items { fmt_mod_item(&mut children, tree, ModItem::from(*item)); format_to!(children, "\n"); } } ModItem::TypeAlias(it) => { format_to!(out, "{:?}", tree[it]); } ModItem::Mod(it) => { format_to!(out, "{:?}", tree[it]); match &tree[it].kind { ModKind::Inline { items } => { for item in &**items { fmt_mod_item(&mut children, tree, *item); format_to!(children, "\n"); } } ModKind::Outline {} => {} } } ModItem::MacroCall(it) => { format_to!(out, "{:?}", tree[it]); } } for line in children.lines() { format_to!(out, "\n> {}", line); } } #[test] fn smoke() { assert_snapshot!(print_item_tree(r" #![attr] #[attr_on_use] use {a, b::*}; #[ext_crate] extern crate krate; #[on_trait] trait Tr { #[assoc_ty] type AssocTy: Tr<()>; #[assoc_const] const CONST: u8; #[assoc_method] fn method(&self); #[assoc_dfl_method] fn dfl_method(&mut self) {} } #[struct0] struct Struct0; #[struct1] struct Struct1(#[struct1fld] u8); #[struct2] struct Struct2 { #[struct2fld] fld: (T, ), } #[en] enum En { #[enum_variant] Variant { #[enum_field] field: u8, }, } #[un] union Un { #[union_fld] fld: u16, } "), @r###" inner attrs: Attrs { entries: Some([Attr { path: ModPath { kind: Plain, segments: [Name(Text("attr"))] }, input: None }]) } top-level items: #[Attrs { entries: Some([Attr { path: ModPath { kind: Plain, segments: [Name(Text("attr_on_use"))] }, input: None }]) }] Import { path: ModPath { kind: Plain, segments: [Name(Text("a"))] }, alias: None, visibility: RawVisibilityId("pub(self)"), is_glob: false, is_prelude: false, ast_id: FileAstId::(0) } #[Attrs { entries: Some([Attr { path: ModPath { kind: Plain, segments: [Name(Text("attr_on_use"))] }, input: None }]) }] Import { path: ModPath { kind: Plain, segments: [Name(Text("b"))] }, alias: None, visibility: RawVisibilityId("pub(self)"), is_glob: true, is_prelude: false, ast_id: FileAstId::(0) } #[Attrs { entries: Some([Attr { path: ModPath { kind: Plain, segments: [Name(Text("ext_crate"))] }, input: None }]) }] ExternCrate { path: ModPath { kind: Plain, segments: [Name(Text("krate"))] }, alias: None, visibility: RawVisibilityId("pub(self)"), is_macro_use: false, ast_id: FileAstId::(1) } #[Attrs { entries: Some([Attr { path: ModPath { kind: Plain, segments: [Name(Text("on_trait"))] }, input: None }]) }] Trait { name: Name(Text("Tr")), visibility: RawVisibilityId("pub(self)"), generic_params: GenericParamsId(0), auto: false, items: [TypeAlias(Idx::(0)), Const(Idx::(0)), Function(Idx::(0)), Function(Idx::(1))], ast_id: FileAstId::(2) } > #[Attrs { entries: Some([Attr { path: ModPath { kind: Plain, segments: [Name(Text("assoc_ty"))] }, input: None }]) }] > TypeAlias { name: Name(Text("AssocTy")), visibility: RawVisibilityId("pub(self)"), bounds: [Path(Path { type_anchor: None, mod_path: ModPath { kind: Plain, segments: [Name(Text("Tr"))] }, generic_args: [Some(GenericArgs { args: [Type(Tuple([]))], has_self_type: false, bindings: [] })] })], generic_params: GenericParamsId(4294967295), type_ref: None, ast_id: FileAstId::(8) } > #[Attrs { entries: Some([Attr { path: ModPath { kind: Plain, segments: [Name(Text("assoc_const"))] }, input: None }]) }] > Const { name: Some(Name(Text("CONST"))), visibility: RawVisibilityId("pub(self)"), type_ref: Path(Path { type_anchor: None, mod_path: ModPath { kind: Plain, segments: [Name(Text("u8"))] }, generic_args: [None] }), ast_id: FileAstId::(9) } > #[Attrs { entries: Some([Attr { path: ModPath { kind: Plain, segments: [Name(Text("assoc_method"))] }, input: None }]) }] > Function { name: Name(Text("method")), visibility: RawVisibilityId("pub(self)"), generic_params: GenericParamsId(4294967295), has_self_param: true, is_unsafe: false, params: [Reference(Path(Path { type_anchor: None, mod_path: ModPath { kind: Plain, segments: [Name(Text("Self"))] }, generic_args: [None] }), Shared)], ret_type: Tuple([]), ast_id: FileAstId::(10) } > #[Attrs { entries: Some([Attr { path: ModPath { kind: Plain, segments: [Name(Text("assoc_dfl_method"))] }, input: None }]) }] > Function { name: Name(Text("dfl_method")), visibility: RawVisibilityId("pub(self)"), generic_params: GenericParamsId(4294967295), has_self_param: true, is_unsafe: false, params: [Reference(Path(Path { type_anchor: None, mod_path: ModPath { kind: Plain, segments: [Name(Text("Self"))] }, generic_args: [None] }), Mut)], ret_type: Tuple([]), ast_id: FileAstId::(11) } #[Attrs { entries: Some([Attr { path: ModPath { kind: Plain, segments: [Name(Text("struct0"))] }, input: None }]) }] Struct { name: Name(Text("Struct0")), visibility: RawVisibilityId("pub(self)"), generic_params: GenericParamsId(1), fields: Unit, ast_id: FileAstId::(3), kind: Unit } #[Attrs { entries: Some([Attr { path: ModPath { kind: Plain, segments: [Name(Text("struct1"))] }, input: None }]) }] Struct { name: Name(Text("Struct1")), visibility: RawVisibilityId("pub(self)"), generic_params: GenericParamsId(2), fields: Tuple(FieldIds { range: 0..1 }), ast_id: FileAstId::(4), kind: Tuple } #[Attrs { entries: Some([Attr { path: ModPath { kind: Plain, segments: [Name(Text("struct2"))] }, input: None }]) }] Struct { name: Name(Text("Struct2")), visibility: RawVisibilityId("pub(self)"), generic_params: GenericParamsId(3), fields: Record(FieldIds { range: 1..2 }), ast_id: FileAstId::(5), kind: Record } #[Attrs { entries: Some([Attr { path: ModPath { kind: Plain, segments: [Name(Text("en"))] }, input: None }]) }] Enum { name: Name(Text("En")), visibility: RawVisibilityId("pub(self)"), generic_params: GenericParamsId(4294967295), variants: Idx::(0)..Idx::(1), ast_id: FileAstId::(6) } #[Attrs { entries: Some([Attr { path: ModPath { kind: Plain, segments: [Name(Text("un"))] }, input: None }]) }] Union { name: Name(Text("Un")), visibility: RawVisibilityId("pub(self)"), generic_params: GenericParamsId(4294967295), fields: Record(FieldIds { range: 3..4 }), ast_id: FileAstId::(7) } "###); } #[test] fn simple_inner_items() { let tree = print_item_tree( r" impl D for Response { fn foo() { end(); fn end() { let _x: T = loop {}; } } } ", ); assert_snapshot!(tree, @r###" inner attrs: Attrs { entries: None } top-level items: Impl { generic_params: GenericParamsId(0), target_trait: Some(Path(Path { type_anchor: None, mod_path: ModPath { kind: Plain, segments: [Name(Text("D"))] }, generic_args: [None] })), target_type: Path(Path { type_anchor: None, mod_path: ModPath { kind: Plain, segments: [Name(Text("Response"))] }, generic_args: [Some(GenericArgs { args: [Type(Path(Path { type_anchor: None, mod_path: ModPath { kind: Plain, segments: [Name(Text("T"))] }, generic_args: [None] }))], has_self_type: false, bindings: [] })] }), is_negative: false, items: [Function(Idx::(1))], ast_id: FileAstId::(0) } > Function { name: Name(Text("foo")), visibility: RawVisibilityId("pub(self)"), generic_params: GenericParamsId(4294967295), has_self_param: false, is_unsafe: false, params: [], ret_type: Tuple([]), ast_id: FileAstId::(1) } inner items: for AST FileAstId::(2): Function { name: Name(Text("end")), visibility: RawVisibilityId("pub(self)"), generic_params: GenericParamsId(1), has_self_param: false, is_unsafe: false, params: [], ret_type: Tuple([]), ast_id: FileAstId::(2) } "###); } #[test] fn extern_attrs() { let tree = print_item_tree( r#" #[block_attr] extern "C" { #[attr_a] fn a() {} #[attr_b] fn b() {} } "#, ); assert_snapshot!(tree, @r###" inner attrs: Attrs { entries: None } top-level items: #[Attrs { entries: Some([Attr { path: ModPath { kind: Plain, segments: [Name(Text("attr_a"))] }, input: None }, Attr { path: ModPath { kind: Plain, segments: [Name(Text("block_attr"))] }, input: None }]) }] Function { name: Name(Text("a")), visibility: RawVisibilityId("pub(self)"), generic_params: GenericParamsId(4294967295), has_self_param: false, is_unsafe: false, params: [], ret_type: Tuple([]), ast_id: FileAstId::(1) } #[Attrs { entries: Some([Attr { path: ModPath { kind: Plain, segments: [Name(Text("attr_b"))] }, input: None }, Attr { path: ModPath { kind: Plain, segments: [Name(Text("block_attr"))] }, input: None }]) }] Function { name: Name(Text("b")), visibility: RawVisibilityId("pub(self)"), generic_params: GenericParamsId(4294967295), has_self_param: false, is_unsafe: false, params: [], ret_type: Tuple([]), ast_id: FileAstId::(2) } "###); } #[test] fn trait_attrs() { let tree = print_item_tree( r#" #[trait_attr] trait Tr { #[attr_a] fn a() {} #[attr_b] fn b() {} } "#, ); assert_snapshot!(tree, @r###" inner attrs: Attrs { entries: None } top-level items: #[Attrs { entries: Some([Attr { path: ModPath { kind: Plain, segments: [Name(Text("trait_attr"))] }, input: None }]) }] Trait { name: Name(Text("Tr")), visibility: RawVisibilityId("pub(self)"), generic_params: GenericParamsId(0), auto: false, items: [Function(Idx::(0)), Function(Idx::(1))], ast_id: FileAstId::(0) } > #[Attrs { entries: Some([Attr { path: ModPath { kind: Plain, segments: [Name(Text("attr_a"))] }, input: None }]) }] > Function { name: Name(Text("a")), visibility: RawVisibilityId("pub(self)"), generic_params: GenericParamsId(4294967295), has_self_param: false, is_unsafe: false, params: [], ret_type: Tuple([]), ast_id: FileAstId::(1) } > #[Attrs { entries: Some([Attr { path: ModPath { kind: Plain, segments: [Name(Text("attr_b"))] }, input: None }]) }] > Function { name: Name(Text("b")), visibility: RawVisibilityId("pub(self)"), generic_params: GenericParamsId(4294967295), has_self_param: false, is_unsafe: false, params: [], ret_type: Tuple([]), ast_id: FileAstId::(2) } "###); } #[test] fn impl_attrs() { let tree = print_item_tree( r#" #[impl_attr] impl Ty { #[attr_a] fn a() {} #[attr_b] fn b() {} } "#, ); assert_snapshot!(tree, @r###" inner attrs: Attrs { entries: None } top-level items: #[Attrs { entries: Some([Attr { path: ModPath { kind: Plain, segments: [Name(Text("impl_attr"))] }, input: None }]) }] Impl { generic_params: GenericParamsId(4294967295), target_trait: None, target_type: Path(Path { type_anchor: None, mod_path: ModPath { kind: Plain, segments: [Name(Text("Ty"))] }, generic_args: [None] }), is_negative: false, items: [Function(Idx::(0)), Function(Idx::(1))], ast_id: FileAstId::(0) } > #[Attrs { entries: Some([Attr { path: ModPath { kind: Plain, segments: [Name(Text("attr_a"))] }, input: None }]) }] > Function { name: Name(Text("a")), visibility: RawVisibilityId("pub(self)"), generic_params: GenericParamsId(4294967295), has_self_param: false, is_unsafe: false, params: [], ret_type: Tuple([]), ast_id: FileAstId::(1) } > #[Attrs { entries: Some([Attr { path: ModPath { kind: Plain, segments: [Name(Text("attr_b"))] }, input: None }]) }] > Function { name: Name(Text("b")), visibility: RawVisibilityId("pub(self)"), generic_params: GenericParamsId(4294967295), has_self_param: false, is_unsafe: false, params: [], ret_type: Tuple([]), ast_id: FileAstId::(2) } "###); } #[test] fn cursed_inner_items() { test_inner_items( r" struct S(T); enum En { Var1 { t: [(); { trait Inner {} 0 }], }, Var2([u16; { enum Inner {} 0 }]), } type Ty = [En; { struct Inner; 0 }]; impl En { fn assoc() { trait InnerTrait {} struct InnerStruct {} impl InnerTrait for InnerStruct {} } } trait Tr { type AssocTy = [u8; { fn f() {} }]; const AssocConst: [u8; { fn f() {} }]; } ", ); } #[test] fn inner_item_attrs() { let tree = print_item_tree( r" fn foo() { #[on_inner] fn inner() {} } ", ); assert_snapshot!(tree, @r###" inner attrs: Attrs { entries: None } top-level items: Function { name: Name(Text("foo")), visibility: RawVisibilityId("pub(self)"), generic_params: GenericParamsId(4294967295), has_self_param: false, is_unsafe: false, params: [], ret_type: Tuple([]), ast_id: FileAstId::(0) } inner items: for AST FileAstId::(1): #[Attrs { entries: Some([Attr { path: ModPath { kind: Plain, segments: [Name(Text("on_inner"))] }, input: None }]) }] Function { name: Name(Text("inner")), visibility: RawVisibilityId("pub(self)"), generic_params: GenericParamsId(4294967295), has_self_param: false, is_unsafe: false, params: [], ret_type: Tuple([]), ast_id: FileAstId::(1) } "###); } #[test] fn assoc_item_macros() { let tree = print_item_tree( r" impl S { items!(); } ", ); assert_snapshot!(tree, @r###" inner attrs: Attrs { entries: None } top-level items: Impl { generic_params: GenericParamsId(4294967295), target_trait: None, target_type: Path(Path { type_anchor: None, mod_path: ModPath { kind: Plain, segments: [Name(Text("S"))] }, generic_args: [None] }), is_negative: false, items: [MacroCall(Idx::(0))], ast_id: FileAstId::(0) } > MacroCall { name: None, path: ModPath { kind: Plain, segments: [Name(Text("items"))] }, is_export: false, is_local_inner: false, is_builtin: false, ast_id: FileAstId::(1) } "###); }