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-rw-r--r--crates/ide_db/Cargo.toml30
-rw-r--r--crates/ide_db/src/change.rs318
-rw-r--r--crates/ide_db/src/defs.rs348
-rw-r--r--crates/ide_db/src/imports_locator.rs64
-rw-r--r--crates/ide_db/src/lib.rs139
-rw-r--r--crates/ide_db/src/line_index.rs281
-rw-r--r--crates/ide_db/src/search.rs322
-rw-r--r--crates/ide_db/src/source_change.rs59
-rw-r--r--crates/ide_db/src/symbol_index.rs429
-rw-r--r--crates/ide_db/src/wasm_shims.rs19
10 files changed, 2009 insertions, 0 deletions
diff --git a/crates/ide_db/Cargo.toml b/crates/ide_db/Cargo.toml
new file mode 100644
index 000000000..692fb6415
--- /dev/null
+++ b/crates/ide_db/Cargo.toml
@@ -0,0 +1,30 @@
1[package]
2name = "ide_db"
3version = "0.0.0"
4license = "MIT OR Apache-2.0"
5authors = ["rust-analyzer developers"]
6edition = "2018"
7
8[lib]
9doctest = false
10
11[features]
12wasm = []
13
14[dependencies]
15log = "0.4.8"
16rayon = "1.3.0"
17fst = { version = "0.4", default-features = false }
18rustc-hash = "1.1.0"
19once_cell = "1.3.1"
20either = "1.5.3"
21
22stdx = { path = "../stdx" }
23syntax = { path = "../syntax" }
24text_edit = { path = "../text_edit" }
25base_db = { path = "../base_db" }
26profile = { path = "../profile" }
27test_utils = { path = "../test_utils" }
28# ide should depend only on the top-level `hir` package. if you need
29# something from some `hir_xxx` subpackage, reexport the API via `hir`.
30hir = { path = "../hir" }
diff --git a/crates/ide_db/src/change.rs b/crates/ide_db/src/change.rs
new file mode 100644
index 000000000..8b4fd7ab8
--- /dev/null
+++ b/crates/ide_db/src/change.rs
@@ -0,0 +1,318 @@
1//! Defines a unit of change that can applied to a state of IDE to get the next
2//! state. Changes are transactional.
3
4use std::{fmt, sync::Arc, time};
5
6use base_db::{
7 salsa::{Database, Durability, SweepStrategy},
8 CrateGraph, FileId, SourceDatabase, SourceDatabaseExt, SourceRoot, SourceRootId,
9};
10use profile::{memory_usage, Bytes};
11use rustc_hash::FxHashSet;
12
13use crate::{symbol_index::SymbolsDatabase, RootDatabase};
14
15#[derive(Default)]
16pub struct AnalysisChange {
17 roots: Option<Vec<SourceRoot>>,
18 files_changed: Vec<(FileId, Option<Arc<String>>)>,
19 crate_graph: Option<CrateGraph>,
20}
21
22impl fmt::Debug for AnalysisChange {
23 fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
24 let mut d = fmt.debug_struct("AnalysisChange");
25 if let Some(roots) = &self.roots {
26 d.field("roots", roots);
27 }
28 if !self.files_changed.is_empty() {
29 d.field("files_changed", &self.files_changed.len());
30 }
31 if self.crate_graph.is_some() {
32 d.field("crate_graph", &self.crate_graph);
33 }
34 d.finish()
35 }
36}
37
38impl AnalysisChange {
39 pub fn new() -> AnalysisChange {
40 AnalysisChange::default()
41 }
42
43 pub fn set_roots(&mut self, roots: Vec<SourceRoot>) {
44 self.roots = Some(roots);
45 }
46
47 pub fn change_file(&mut self, file_id: FileId, new_text: Option<Arc<String>>) {
48 self.files_changed.push((file_id, new_text))
49 }
50
51 pub fn set_crate_graph(&mut self, graph: CrateGraph) {
52 self.crate_graph = Some(graph);
53 }
54}
55
56#[derive(Debug)]
57struct AddFile {
58 file_id: FileId,
59 path: String,
60 text: Arc<String>,
61}
62
63#[derive(Debug)]
64struct RemoveFile {
65 file_id: FileId,
66 path: String,
67}
68
69#[derive(Default)]
70struct RootChange {
71 added: Vec<AddFile>,
72 removed: Vec<RemoveFile>,
73}
74
75impl fmt::Debug for RootChange {
76 fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
77 fmt.debug_struct("AnalysisChange")
78 .field("added", &self.added.len())
79 .field("removed", &self.removed.len())
80 .finish()
81 }
82}
83
84const GC_COOLDOWN: time::Duration = time::Duration::from_millis(100);
85
86impl RootDatabase {
87 pub fn request_cancellation(&mut self) {
88 let _p = profile::span("RootDatabase::request_cancellation");
89 self.salsa_runtime_mut().synthetic_write(Durability::LOW);
90 }
91
92 pub fn apply_change(&mut self, change: AnalysisChange) {
93 let _p = profile::span("RootDatabase::apply_change");
94 self.request_cancellation();
95 log::info!("apply_change {:?}", change);
96 if let Some(roots) = change.roots {
97 let mut local_roots = FxHashSet::default();
98 let mut library_roots = FxHashSet::default();
99 for (idx, root) in roots.into_iter().enumerate() {
100 let root_id = SourceRootId(idx as u32);
101 let durability = durability(&root);
102 if root.is_library {
103 library_roots.insert(root_id);
104 } else {
105 local_roots.insert(root_id);
106 }
107 for file_id in root.iter() {
108 self.set_file_source_root_with_durability(file_id, root_id, durability);
109 }
110 self.set_source_root_with_durability(root_id, Arc::new(root), durability);
111 }
112 self.set_local_roots_with_durability(Arc::new(local_roots), Durability::HIGH);
113 self.set_library_roots_with_durability(Arc::new(library_roots), Durability::HIGH);
114 }
115
116 for (file_id, text) in change.files_changed {
117 let source_root_id = self.file_source_root(file_id);
118 let source_root = self.source_root(source_root_id);
119 let durability = durability(&source_root);
120 // XXX: can't actually remove the file, just reset the text
121 let text = text.unwrap_or_default();
122 self.set_file_text_with_durability(file_id, text, durability)
123 }
124 if let Some(crate_graph) = change.crate_graph {
125 self.set_crate_graph_with_durability(Arc::new(crate_graph), Durability::HIGH)
126 }
127 }
128
129 pub fn maybe_collect_garbage(&mut self) {
130 if cfg!(feature = "wasm") {
131 return;
132 }
133
134 if self.last_gc_check.elapsed() > GC_COOLDOWN {
135 self.last_gc_check = crate::wasm_shims::Instant::now();
136 }
137 }
138
139 pub fn collect_garbage(&mut self) {
140 if cfg!(feature = "wasm") {
141 return;
142 }
143
144 let _p = profile::span("RootDatabase::collect_garbage");
145 self.last_gc = crate::wasm_shims::Instant::now();
146
147 let sweep = SweepStrategy::default().discard_values().sweep_all_revisions();
148
149 base_db::ParseQuery.in_db(self).sweep(sweep);
150 hir::db::ParseMacroQuery.in_db(self).sweep(sweep);
151
152 // Macros do take significant space, but less then the syntax trees
153 // self.query(hir::db::MacroDefQuery).sweep(sweep);
154 // self.query(hir::db::MacroArgTextQuery).sweep(sweep);
155 // self.query(hir::db::MacroExpandQuery).sweep(sweep);
156
157 hir::db::AstIdMapQuery.in_db(self).sweep(sweep);
158
159 hir::db::BodyWithSourceMapQuery.in_db(self).sweep(sweep);
160
161 hir::db::ExprScopesQuery.in_db(self).sweep(sweep);
162 hir::db::InferQueryQuery.in_db(self).sweep(sweep);
163 hir::db::BodyQuery.in_db(self).sweep(sweep);
164 }
165
166 // Feature: Memory Usage
167 //
168 // Clears rust-analyzer's internal database and prints memory usage statistics.
169 //
170 // |===
171 // | Editor | Action Name
172 //
173 // | VS Code | **Rust Analyzer: Memory Usage (Clears Database)**
174 // |===
175 pub fn per_query_memory_usage(&mut self) -> Vec<(String, Bytes)> {
176 let mut acc: Vec<(String, Bytes)> = vec![];
177 let sweep = SweepStrategy::default().discard_values().sweep_all_revisions();
178 macro_rules! sweep_each_query {
179 ($($q:path)*) => {$(
180 let before = memory_usage().allocated;
181 $q.in_db(self).sweep(sweep);
182 let after = memory_usage().allocated;
183 let q: $q = Default::default();
184 let name = format!("{:?}", q);
185 acc.push((name, before - after));
186
187 let before = memory_usage().allocated;
188 $q.in_db(self).sweep(sweep.discard_everything());
189 let after = memory_usage().allocated;
190 let q: $q = Default::default();
191 let name = format!("{:?} (deps)", q);
192 acc.push((name, before - after));
193
194 let before = memory_usage().allocated;
195 $q.in_db(self).purge();
196 let after = memory_usage().allocated;
197 let q: $q = Default::default();
198 let name = format!("{:?} (purge)", q);
199 acc.push((name, before - after));
200 )*}
201 }
202 sweep_each_query![
203 // SourceDatabase
204 base_db::ParseQuery
205 base_db::CrateGraphQuery
206
207 // SourceDatabaseExt
208 base_db::FileTextQuery
209 base_db::FileSourceRootQuery
210 base_db::SourceRootQuery
211 base_db::SourceRootCratesQuery
212
213 // AstDatabase
214 hir::db::AstIdMapQuery
215 hir::db::MacroArgTextQuery
216 hir::db::MacroDefQuery
217 hir::db::ParseMacroQuery
218 hir::db::MacroExpandQuery
219
220 // DefDatabase
221 hir::db::ItemTreeQuery
222 hir::db::CrateDefMapQueryQuery
223 hir::db::StructDataQuery
224 hir::db::UnionDataQuery
225 hir::db::EnumDataQuery
226 hir::db::ImplDataQuery
227 hir::db::TraitDataQuery
228 hir::db::TypeAliasDataQuery
229 hir::db::FunctionDataQuery
230 hir::db::ConstDataQuery
231 hir::db::StaticDataQuery
232 hir::db::BodyWithSourceMapQuery
233 hir::db::BodyQuery
234 hir::db::ExprScopesQuery
235 hir::db::GenericParamsQuery
236 hir::db::AttrsQuery
237 hir::db::ModuleLangItemsQuery
238 hir::db::CrateLangItemsQuery
239 hir::db::LangItemQuery
240 hir::db::DocumentationQuery
241 hir::db::ImportMapQuery
242
243 // HirDatabase
244 hir::db::InferQueryQuery
245 hir::db::TyQuery
246 hir::db::ValueTyQuery
247 hir::db::ImplSelfTyQuery
248 hir::db::ImplTraitQuery
249 hir::db::FieldTypesQuery
250 hir::db::CallableItemSignatureQuery
251 hir::db::GenericPredicatesForParamQuery
252 hir::db::GenericPredicatesQuery
253 hir::db::GenericDefaultsQuery
254 hir::db::InherentImplsInCrateQuery
255 hir::db::TraitImplsInCrateQuery
256 hir::db::TraitImplsInDepsQuery
257 hir::db::AssociatedTyDataQuery
258 hir::db::AssociatedTyDataQuery
259 hir::db::TraitDatumQuery
260 hir::db::StructDatumQuery
261 hir::db::ImplDatumQuery
262 hir::db::FnDefDatumQuery
263 hir::db::ReturnTypeImplTraitsQuery
264 hir::db::InternCallableDefQuery
265 hir::db::InternTypeParamIdQuery
266 hir::db::InternImplTraitIdQuery
267 hir::db::InternClosureQuery
268 hir::db::AssociatedTyValueQuery
269 hir::db::TraitSolveQuery
270
271 // SymbolsDatabase
272 crate::symbol_index::FileSymbolsQuery
273 crate::symbol_index::LibrarySymbolsQuery
274 crate::symbol_index::LocalRootsQuery
275 crate::symbol_index::LibraryRootsQuery
276
277 // LineIndexDatabase
278 crate::LineIndexQuery
279 ];
280
281 // To collect interned data, we need to bump the revision counter by performing a synthetic
282 // write.
283 // We do this after collecting the non-interned queries to correctly attribute memory used
284 // by interned data.
285 self.salsa_runtime_mut().synthetic_write(Durability::HIGH);
286
287 sweep_each_query![
288 // AstDatabase
289 hir::db::InternMacroQuery
290 hir::db::InternEagerExpansionQuery
291
292 // InternDatabase
293 hir::db::InternFunctionQuery
294 hir::db::InternStructQuery
295 hir::db::InternUnionQuery
296 hir::db::InternEnumQuery
297 hir::db::InternConstQuery
298 hir::db::InternStaticQuery
299 hir::db::InternTraitQuery
300 hir::db::InternTypeAliasQuery
301 hir::db::InternImplQuery
302
303 // HirDatabase
304 hir::db::InternTypeParamIdQuery
305 ];
306
307 acc.sort_by_key(|it| std::cmp::Reverse(it.1));
308 acc
309 }
310}
311
312fn durability(source_root: &SourceRoot) -> Durability {
313 if source_root.is_library {
314 Durability::HIGH
315 } else {
316 Durability::LOW
317 }
318}
diff --git a/crates/ide_db/src/defs.rs b/crates/ide_db/src/defs.rs
new file mode 100644
index 000000000..0d0affc27
--- /dev/null
+++ b/crates/ide_db/src/defs.rs
@@ -0,0 +1,348 @@
1//! `NameDefinition` keeps information about the element we want to search references for.
2//! The element is represented by `NameKind`. It's located inside some `container` and
3//! has a `visibility`, which defines a search scope.
4//! Note that the reference search is possible for not all of the classified items.
5
6// FIXME: this badly needs rename/rewrite (matklad, 2020-02-06).
7
8use hir::{
9 db::HirDatabase, Crate, Field, HasVisibility, ImplDef, Local, MacroDef, Module, ModuleDef,
10 Name, PathResolution, Semantics, TypeParam, Visibility,
11};
12use syntax::{
13 ast::{self, AstNode},
14 match_ast, SyntaxNode,
15};
16
17use crate::RootDatabase;
18
19// FIXME: a more precise name would probably be `Symbol`?
20#[derive(Debug, PartialEq, Eq, Copy, Clone)]
21pub enum Definition {
22 Macro(MacroDef),
23 Field(Field),
24 ModuleDef(ModuleDef),
25 SelfType(ImplDef),
26 Local(Local),
27 TypeParam(TypeParam),
28}
29
30impl Definition {
31 pub fn module(&self, db: &RootDatabase) -> Option<Module> {
32 match self {
33 Definition::Macro(it) => it.module(db),
34 Definition::Field(it) => Some(it.parent_def(db).module(db)),
35 Definition::ModuleDef(it) => it.module(db),
36 Definition::SelfType(it) => Some(it.module(db)),
37 Definition::Local(it) => Some(it.module(db)),
38 Definition::TypeParam(it) => Some(it.module(db)),
39 }
40 }
41
42 pub fn visibility(&self, db: &RootDatabase) -> Option<Visibility> {
43 match self {
44 Definition::Macro(_) => None,
45 Definition::Field(sf) => Some(sf.visibility(db)),
46 Definition::ModuleDef(def) => def.definition_visibility(db),
47 Definition::SelfType(_) => None,
48 Definition::Local(_) => None,
49 Definition::TypeParam(_) => None,
50 }
51 }
52
53 pub fn name(&self, db: &RootDatabase) -> Option<Name> {
54 let name = match self {
55 Definition::Macro(it) => it.name(db)?,
56 Definition::Field(it) => it.name(db),
57 Definition::ModuleDef(def) => match def {
58 hir::ModuleDef::Module(it) => it.name(db)?,
59 hir::ModuleDef::Function(it) => it.name(db),
60 hir::ModuleDef::Adt(def) => match def {
61 hir::Adt::Struct(it) => it.name(db),
62 hir::Adt::Union(it) => it.name(db),
63 hir::Adt::Enum(it) => it.name(db),
64 },
65 hir::ModuleDef::EnumVariant(it) => it.name(db),
66 hir::ModuleDef::Const(it) => it.name(db)?,
67 hir::ModuleDef::Static(it) => it.name(db)?,
68 hir::ModuleDef::Trait(it) => it.name(db),
69 hir::ModuleDef::TypeAlias(it) => it.name(db),
70 hir::ModuleDef::BuiltinType(_) => return None,
71 },
72 Definition::SelfType(_) => return None,
73 Definition::Local(it) => it.name(db)?,
74 Definition::TypeParam(it) => it.name(db),
75 };
76 Some(name)
77 }
78}
79
80#[derive(Debug)]
81pub enum NameClass {
82 ExternCrate(Crate),
83 Definition(Definition),
84 /// `None` in `if let None = Some(82) {}`
85 ConstReference(Definition),
86 FieldShorthand {
87 local: Local,
88 field: Definition,
89 },
90}
91
92impl NameClass {
93 pub fn into_definition(self, db: &dyn HirDatabase) -> Option<Definition> {
94 Some(match self {
95 NameClass::ExternCrate(krate) => Definition::ModuleDef(krate.root_module(db).into()),
96 NameClass::Definition(it) => it,
97 NameClass::ConstReference(_) => return None,
98 NameClass::FieldShorthand { local, field: _ } => Definition::Local(local),
99 })
100 }
101
102 pub fn definition(self, db: &dyn HirDatabase) -> Definition {
103 match self {
104 NameClass::ExternCrate(krate) => Definition::ModuleDef(krate.root_module(db).into()),
105 NameClass::Definition(it) | NameClass::ConstReference(it) => it,
106 NameClass::FieldShorthand { local: _, field } => field,
107 }
108 }
109}
110
111pub fn classify_name(sema: &Semantics<RootDatabase>, name: &ast::Name) -> Option<NameClass> {
112 let _p = profile::span("classify_name");
113
114 let parent = name.syntax().parent()?;
115
116 if let Some(bind_pat) = ast::IdentPat::cast(parent.clone()) {
117 if let Some(def) = sema.resolve_bind_pat_to_const(&bind_pat) {
118 return Some(NameClass::ConstReference(Definition::ModuleDef(def)));
119 }
120 }
121
122 match_ast! {
123 match parent {
124 ast::Rename(it) => {
125 if let Some(use_tree) = it.syntax().parent().and_then(ast::UseTree::cast) {
126 let path = use_tree.path()?;
127 let path_segment = path.segment()?;
128 let name_ref_class = path_segment
129 .name_ref()
130 // The rename might be from a `self` token, so fallback to the name higher
131 // in the use tree.
132 .or_else(||{
133 if path_segment.self_token().is_none() {
134 return None;
135 }
136
137 let use_tree = use_tree
138 .syntax()
139 .parent()
140 .as_ref()
141 // Skip over UseTreeList
142 .and_then(SyntaxNode::parent)
143 .and_then(ast::UseTree::cast)?;
144 let path = use_tree.path()?;
145 let path_segment = path.segment()?;
146 path_segment.name_ref()
147 })
148 .and_then(|name_ref| classify_name_ref(sema, &name_ref))?;
149
150 Some(NameClass::Definition(name_ref_class.definition(sema.db)))
151 } else {
152 let extern_crate = it.syntax().parent().and_then(ast::ExternCrate::cast)?;
153 let resolved = sema.resolve_extern_crate(&extern_crate)?;
154 Some(NameClass::ExternCrate(resolved))
155 }
156 },
157 ast::IdentPat(it) => {
158 let local = sema.to_def(&it)?;
159
160 if let Some(record_field_pat) = it.syntax().parent().and_then(ast::RecordPatField::cast) {
161 if record_field_pat.name_ref().is_none() {
162 if let Some(field) = sema.resolve_record_field_pat(&record_field_pat) {
163 let field = Definition::Field(field);
164 return Some(NameClass::FieldShorthand { local, field });
165 }
166 }
167 }
168
169 Some(NameClass::Definition(Definition::Local(local)))
170 },
171 ast::RecordField(it) => {
172 let field: hir::Field = sema.to_def(&it)?;
173 Some(NameClass::Definition(Definition::Field(field)))
174 },
175 ast::Module(it) => {
176 let def = sema.to_def(&it)?;
177 Some(NameClass::Definition(Definition::ModuleDef(def.into())))
178 },
179 ast::Struct(it) => {
180 let def: hir::Struct = sema.to_def(&it)?;
181 Some(NameClass::Definition(Definition::ModuleDef(def.into())))
182 },
183 ast::Union(it) => {
184 let def: hir::Union = sema.to_def(&it)?;
185 Some(NameClass::Definition(Definition::ModuleDef(def.into())))
186 },
187 ast::Enum(it) => {
188 let def: hir::Enum = sema.to_def(&it)?;
189 Some(NameClass::Definition(Definition::ModuleDef(def.into())))
190 },
191 ast::Trait(it) => {
192 let def: hir::Trait = sema.to_def(&it)?;
193 Some(NameClass::Definition(Definition::ModuleDef(def.into())))
194 },
195 ast::Static(it) => {
196 let def: hir::Static = sema.to_def(&it)?;
197 Some(NameClass::Definition(Definition::ModuleDef(def.into())))
198 },
199 ast::Variant(it) => {
200 let def: hir::EnumVariant = sema.to_def(&it)?;
201 Some(NameClass::Definition(Definition::ModuleDef(def.into())))
202 },
203 ast::Fn(it) => {
204 let def: hir::Function = sema.to_def(&it)?;
205 Some(NameClass::Definition(Definition::ModuleDef(def.into())))
206 },
207 ast::Const(it) => {
208 let def: hir::Const = sema.to_def(&it)?;
209 Some(NameClass::Definition(Definition::ModuleDef(def.into())))
210 },
211 ast::TypeAlias(it) => {
212 let def: hir::TypeAlias = sema.to_def(&it)?;
213 Some(NameClass::Definition(Definition::ModuleDef(def.into())))
214 },
215 ast::MacroCall(it) => {
216 let def = sema.to_def(&it)?;
217 Some(NameClass::Definition(Definition::Macro(def)))
218 },
219 ast::TypeParam(it) => {
220 let def = sema.to_def(&it)?;
221 Some(NameClass::Definition(Definition::TypeParam(def)))
222 },
223 _ => None,
224 }
225 }
226}
227
228#[derive(Debug)]
229pub enum NameRefClass {
230 ExternCrate(Crate),
231 Definition(Definition),
232 FieldShorthand { local: Local, field: Definition },
233}
234
235impl NameRefClass {
236 pub fn definition(self, db: &dyn HirDatabase) -> Definition {
237 match self {
238 NameRefClass::ExternCrate(krate) => Definition::ModuleDef(krate.root_module(db).into()),
239 NameRefClass::Definition(def) => def,
240 NameRefClass::FieldShorthand { local, field: _ } => Definition::Local(local),
241 }
242 }
243}
244
245// Note: we don't have unit-tests for this rather important function.
246// It is primarily exercised via goto definition tests in `ide`.
247pub fn classify_name_ref(
248 sema: &Semantics<RootDatabase>,
249 name_ref: &ast::NameRef,
250) -> Option<NameRefClass> {
251 let _p = profile::span("classify_name_ref");
252
253 let parent = name_ref.syntax().parent()?;
254
255 if let Some(method_call) = ast::MethodCallExpr::cast(parent.clone()) {
256 if let Some(func) = sema.resolve_method_call(&method_call) {
257 return Some(NameRefClass::Definition(Definition::ModuleDef(func.into())));
258 }
259 }
260
261 if let Some(field_expr) = ast::FieldExpr::cast(parent.clone()) {
262 if let Some(field) = sema.resolve_field(&field_expr) {
263 return Some(NameRefClass::Definition(Definition::Field(field)));
264 }
265 }
266
267 if let Some(record_field) = ast::RecordExprField::for_field_name(name_ref) {
268 if let Some((field, local)) = sema.resolve_record_field(&record_field) {
269 let field = Definition::Field(field);
270 let res = match local {
271 None => NameRefClass::Definition(field),
272 Some(local) => NameRefClass::FieldShorthand { field, local },
273 };
274 return Some(res);
275 }
276 }
277
278 if let Some(record_field_pat) = ast::RecordPatField::cast(parent.clone()) {
279 if let Some(field) = sema.resolve_record_field_pat(&record_field_pat) {
280 let field = Definition::Field(field);
281 return Some(NameRefClass::Definition(field));
282 }
283 }
284
285 if ast::AssocTypeArg::cast(parent.clone()).is_some() {
286 // `Trait<Assoc = Ty>`
287 // ^^^^^
288 let path = name_ref.syntax().ancestors().find_map(ast::Path::cast)?;
289 let resolved = sema.resolve_path(&path)?;
290 if let PathResolution::Def(ModuleDef::Trait(tr)) = resolved {
291 if let Some(ty) = tr
292 .items(sema.db)
293 .iter()
294 .filter_map(|assoc| match assoc {
295 hir::AssocItem::TypeAlias(it) => Some(*it),
296 _ => None,
297 })
298 .find(|alias| alias.name(sema.db).to_string() == **name_ref.text())
299 {
300 return Some(NameRefClass::Definition(Definition::ModuleDef(
301 ModuleDef::TypeAlias(ty),
302 )));
303 }
304 }
305 }
306
307 if let Some(macro_call) = parent.ancestors().find_map(ast::MacroCall::cast) {
308 if let Some(path) = macro_call.path() {
309 if path.qualifier().is_none() {
310 // Only use this to resolve single-segment macro calls like `foo!()`. Multi-segment
311 // paths are handled below (allowing `log<|>::info!` to resolve to the log crate).
312 if let Some(macro_def) = sema.resolve_macro_call(&macro_call) {
313 return Some(NameRefClass::Definition(Definition::Macro(macro_def)));
314 }
315 }
316 }
317 }
318
319 if let Some(path) = name_ref.syntax().ancestors().find_map(ast::Path::cast) {
320 if let Some(resolved) = sema.resolve_path(&path) {
321 return Some(NameRefClass::Definition(resolved.into()));
322 }
323 }
324
325 let extern_crate = ast::ExternCrate::cast(parent)?;
326 let resolved = sema.resolve_extern_crate(&extern_crate)?;
327 Some(NameRefClass::ExternCrate(resolved))
328}
329
330impl From<PathResolution> for Definition {
331 fn from(path_resolution: PathResolution) -> Self {
332 match path_resolution {
333 PathResolution::Def(def) => Definition::ModuleDef(def),
334 PathResolution::AssocItem(item) => {
335 let def = match item {
336 hir::AssocItem::Function(it) => it.into(),
337 hir::AssocItem::Const(it) => it.into(),
338 hir::AssocItem::TypeAlias(it) => it.into(),
339 };
340 Definition::ModuleDef(def)
341 }
342 PathResolution::Local(local) => Definition::Local(local),
343 PathResolution::TypeParam(par) => Definition::TypeParam(par),
344 PathResolution::Macro(def) => Definition::Macro(def),
345 PathResolution::SelfType(impl_def) => Definition::SelfType(impl_def),
346 }
347 }
348}
diff --git a/crates/ide_db/src/imports_locator.rs b/crates/ide_db/src/imports_locator.rs
new file mode 100644
index 000000000..ed67e3553
--- /dev/null
+++ b/crates/ide_db/src/imports_locator.rs
@@ -0,0 +1,64 @@
1//! This module contains an import search funcionality that is provided to the assists module.
2//! Later, this should be moved away to a separate crate that is accessible from the assists module.
3
4use hir::{Crate, MacroDef, ModuleDef, Semantics};
5use syntax::{ast, AstNode, SyntaxKind::NAME};
6
7use crate::{
8 defs::{classify_name, Definition},
9 symbol_index::{self, FileSymbol, Query},
10 RootDatabase,
11};
12use either::Either;
13use rustc_hash::FxHashSet;
14
15pub fn find_imports<'a>(
16 sema: &Semantics<'a, RootDatabase>,
17 krate: Crate,
18 name_to_import: &str,
19) -> Vec<Either<ModuleDef, MacroDef>> {
20 let _p = profile::span("search_for_imports");
21 let db = sema.db;
22
23 // Query dependencies first.
24 let mut candidates: FxHashSet<_> =
25 krate.query_external_importables(db, name_to_import).collect();
26
27 // Query the local crate using the symbol index.
28 let local_results = {
29 let mut query = Query::new(name_to_import.to_string());
30 query.exact();
31 query.limit(40);
32 symbol_index::crate_symbols(db, krate.into(), query)
33 };
34
35 candidates.extend(
36 local_results
37 .into_iter()
38 .filter_map(|import_candidate| get_name_definition(sema, &import_candidate))
39 .filter_map(|name_definition_to_import| match name_definition_to_import {
40 Definition::ModuleDef(module_def) => Some(Either::Left(module_def)),
41 Definition::Macro(macro_def) => Some(Either::Right(macro_def)),
42 _ => None,
43 }),
44 );
45
46 candidates.into_iter().collect()
47}
48
49fn get_name_definition<'a>(
50 sema: &Semantics<'a, RootDatabase>,
51 import_candidate: &FileSymbol,
52) -> Option<Definition> {
53 let _p = profile::span("get_name_definition");
54 let file_id = import_candidate.file_id;
55
56 let candidate_node = import_candidate.ptr.to_node(sema.parse(file_id).syntax());
57 let candidate_name_node = if candidate_node.kind() != NAME {
58 candidate_node.children().find(|it| it.kind() == NAME)?
59 } else {
60 candidate_node
61 };
62 let name = ast::Name::cast(candidate_name_node)?;
63 classify_name(sema, &name)?.into_definition(sema.db)
64}
diff --git a/crates/ide_db/src/lib.rs b/crates/ide_db/src/lib.rs
new file mode 100644
index 000000000..fd474cd0f
--- /dev/null
+++ b/crates/ide_db/src/lib.rs
@@ -0,0 +1,139 @@
1//! This crate defines the core datastructure representing IDE state -- `RootDatabase`.
2//!
3//! It is mainly a `HirDatabase` for semantic analysis, plus a `SymbolsDatabase`, for fuzzy search.
4
5pub mod line_index;
6pub mod symbol_index;
7pub mod change;
8pub mod defs;
9pub mod search;
10pub mod imports_locator;
11pub mod source_change;
12mod wasm_shims;
13
14use std::{fmt, sync::Arc};
15
16use base_db::{
17 salsa::{self, Durability},
18 Canceled, CheckCanceled, CrateId, FileId, FileLoader, FileLoaderDelegate, SourceDatabase,
19 Upcast,
20};
21use hir::db::{AstDatabase, DefDatabase, HirDatabase};
22use rustc_hash::FxHashSet;
23
24use crate::{line_index::LineIndex, symbol_index::SymbolsDatabase};
25
26#[salsa::database(
27 base_db::SourceDatabaseStorage,
28 base_db::SourceDatabaseExtStorage,
29 LineIndexDatabaseStorage,
30 symbol_index::SymbolsDatabaseStorage,
31 hir::db::InternDatabaseStorage,
32 hir::db::AstDatabaseStorage,
33 hir::db::DefDatabaseStorage,
34 hir::db::HirDatabaseStorage
35)]
36pub struct RootDatabase {
37 storage: salsa::Storage<RootDatabase>,
38 pub last_gc: crate::wasm_shims::Instant,
39 pub last_gc_check: crate::wasm_shims::Instant,
40}
41
42impl fmt::Debug for RootDatabase {
43 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
44 f.debug_struct("RootDatabase").finish()
45 }
46}
47
48impl Upcast<dyn AstDatabase> for RootDatabase {
49 fn upcast(&self) -> &(dyn AstDatabase + 'static) {
50 &*self
51 }
52}
53
54impl Upcast<dyn DefDatabase> for RootDatabase {
55 fn upcast(&self) -> &(dyn DefDatabase + 'static) {
56 &*self
57 }
58}
59
60impl Upcast<dyn HirDatabase> for RootDatabase {
61 fn upcast(&self) -> &(dyn HirDatabase + 'static) {
62 &*self
63 }
64}
65
66impl FileLoader for RootDatabase {
67 fn file_text(&self, file_id: FileId) -> Arc<String> {
68 FileLoaderDelegate(self).file_text(file_id)
69 }
70 fn resolve_path(&self, anchor: FileId, path: &str) -> Option<FileId> {
71 FileLoaderDelegate(self).resolve_path(anchor, path)
72 }
73 fn relevant_crates(&self, file_id: FileId) -> Arc<FxHashSet<CrateId>> {
74 FileLoaderDelegate(self).relevant_crates(file_id)
75 }
76}
77
78impl salsa::Database for RootDatabase {
79 fn on_propagated_panic(&self) -> ! {
80 Canceled::throw()
81 }
82 fn salsa_event(&self, event: salsa::Event) {
83 match event.kind {
84 salsa::EventKind::DidValidateMemoizedValue { .. }
85 | salsa::EventKind::WillExecute { .. } => {
86 self.check_canceled();
87 }
88 _ => (),
89 }
90 }
91}
92
93impl Default for RootDatabase {
94 fn default() -> RootDatabase {
95 RootDatabase::new(None)
96 }
97}
98
99impl RootDatabase {
100 pub fn new(lru_capacity: Option<usize>) -> RootDatabase {
101 let mut db = RootDatabase {
102 storage: salsa::Storage::default(),
103 last_gc: crate::wasm_shims::Instant::now(),
104 last_gc_check: crate::wasm_shims::Instant::now(),
105 };
106 db.set_crate_graph_with_durability(Default::default(), Durability::HIGH);
107 db.set_local_roots_with_durability(Default::default(), Durability::HIGH);
108 db.set_library_roots_with_durability(Default::default(), Durability::HIGH);
109 db.update_lru_capacity(lru_capacity);
110 db
111 }
112
113 pub fn update_lru_capacity(&mut self, lru_capacity: Option<usize>) {
114 let lru_capacity = lru_capacity.unwrap_or(base_db::DEFAULT_LRU_CAP);
115 base_db::ParseQuery.in_db_mut(self).set_lru_capacity(lru_capacity);
116 hir::db::ParseMacroQuery.in_db_mut(self).set_lru_capacity(lru_capacity);
117 hir::db::MacroExpandQuery.in_db_mut(self).set_lru_capacity(lru_capacity);
118 }
119}
120
121impl salsa::ParallelDatabase for RootDatabase {
122 fn snapshot(&self) -> salsa::Snapshot<RootDatabase> {
123 salsa::Snapshot::new(RootDatabase {
124 storage: self.storage.snapshot(),
125 last_gc: self.last_gc,
126 last_gc_check: self.last_gc_check,
127 })
128 }
129}
130
131#[salsa::query_group(LineIndexDatabaseStorage)]
132pub trait LineIndexDatabase: base_db::SourceDatabase + CheckCanceled {
133 fn line_index(&self, file_id: FileId) -> Arc<LineIndex>;
134}
135
136fn line_index(db: &dyn LineIndexDatabase, file_id: FileId) -> Arc<LineIndex> {
137 let text = db.file_text(file_id);
138 Arc::new(LineIndex::new(&*text))
139}
diff --git a/crates/ide_db/src/line_index.rs b/crates/ide_db/src/line_index.rs
new file mode 100644
index 000000000..a381f7fb8
--- /dev/null
+++ b/crates/ide_db/src/line_index.rs
@@ -0,0 +1,281 @@
1//! `LineIndex` maps flat `TextSize` offsets into `(Line, Column)`
2//! representation.
3use std::iter;
4
5use rustc_hash::FxHashMap;
6use stdx::partition_point;
7use syntax::{TextRange, TextSize};
8
9#[derive(Clone, Debug, PartialEq, Eq)]
10pub struct LineIndex {
11 /// Offset the the beginning of each line, zero-based
12 pub(crate) newlines: Vec<TextSize>,
13 /// List of non-ASCII characters on each line
14 pub(crate) utf16_lines: FxHashMap<u32, Vec<Utf16Char>>,
15}
16
17#[derive(Clone, Copy, Debug, PartialEq, Eq, Hash)]
18pub struct LineCol {
19 /// Zero-based
20 pub line: u32,
21 /// Zero-based
22 pub col_utf16: u32,
23}
24
25#[derive(Clone, Debug, Hash, PartialEq, Eq)]
26pub(crate) struct Utf16Char {
27 /// Start offset of a character inside a line, zero-based
28 pub(crate) start: TextSize,
29 /// End offset of a character inside a line, zero-based
30 pub(crate) end: TextSize,
31}
32
33impl Utf16Char {
34 /// Returns the length in 8-bit UTF-8 code units.
35 fn len(&self) -> TextSize {
36 self.end - self.start
37 }
38
39 /// Returns the length in 16-bit UTF-16 code units.
40 fn len_utf16(&self) -> usize {
41 if self.len() == TextSize::from(4) {
42 2
43 } else {
44 1
45 }
46 }
47}
48
49impl LineIndex {
50 pub fn new(text: &str) -> LineIndex {
51 let mut utf16_lines = FxHashMap::default();
52 let mut utf16_chars = Vec::new();
53
54 let mut newlines = vec![0.into()];
55 let mut curr_row = 0.into();
56 let mut curr_col = 0.into();
57 let mut line = 0;
58 for c in text.chars() {
59 let c_len = TextSize::of(c);
60 curr_row += c_len;
61 if c == '\n' {
62 newlines.push(curr_row);
63
64 // Save any utf-16 characters seen in the previous line
65 if !utf16_chars.is_empty() {
66 utf16_lines.insert(line, utf16_chars);
67 utf16_chars = Vec::new();
68 }
69
70 // Prepare for processing the next line
71 curr_col = 0.into();
72 line += 1;
73 continue;
74 }
75
76 if !c.is_ascii() {
77 utf16_chars.push(Utf16Char { start: curr_col, end: curr_col + c_len });
78 }
79
80 curr_col += c_len;
81 }
82
83 // Save any utf-16 characters seen in the last line
84 if !utf16_chars.is_empty() {
85 utf16_lines.insert(line, utf16_chars);
86 }
87
88 LineIndex { newlines, utf16_lines }
89 }
90
91 pub fn line_col(&self, offset: TextSize) -> LineCol {
92 let line = partition_point(&self.newlines, |&it| it <= offset) - 1;
93 let line_start_offset = self.newlines[line];
94 let col = offset - line_start_offset;
95
96 LineCol { line: line as u32, col_utf16: self.utf8_to_utf16_col(line as u32, col) as u32 }
97 }
98
99 pub fn offset(&self, line_col: LineCol) -> TextSize {
100 //FIXME: return Result
101 let col = self.utf16_to_utf8_col(line_col.line, line_col.col_utf16);
102 self.newlines[line_col.line as usize] + col
103 }
104
105 pub fn lines(&self, range: TextRange) -> impl Iterator<Item = TextRange> + '_ {
106 let lo = partition_point(&self.newlines, |&it| it < range.start());
107 let hi = partition_point(&self.newlines, |&it| it <= range.end());
108 let all = iter::once(range.start())
109 .chain(self.newlines[lo..hi].iter().copied())
110 .chain(iter::once(range.end()));
111
112 all.clone()
113 .zip(all.skip(1))
114 .map(|(lo, hi)| TextRange::new(lo, hi))
115 .filter(|it| !it.is_empty())
116 }
117
118 fn utf8_to_utf16_col(&self, line: u32, col: TextSize) -> usize {
119 let mut res: usize = col.into();
120 if let Some(utf16_chars) = self.utf16_lines.get(&line) {
121 for c in utf16_chars {
122 if c.end <= col {
123 res -= usize::from(c.len()) - c.len_utf16();
124 } else {
125 // From here on, all utf16 characters come *after* the character we are mapping,
126 // so we don't need to take them into account
127 break;
128 }
129 }
130 }
131 res
132 }
133
134 fn utf16_to_utf8_col(&self, line: u32, mut col: u32) -> TextSize {
135 if let Some(utf16_chars) = self.utf16_lines.get(&line) {
136 for c in utf16_chars {
137 if col > u32::from(c.start) {
138 col += u32::from(c.len()) - c.len_utf16() as u32;
139 } else {
140 // From here on, all utf16 characters come *after* the character we are mapping,
141 // so we don't need to take them into account
142 break;
143 }
144 }
145 }
146
147 col.into()
148 }
149}
150
151#[cfg(test)]
152mod tests {
153 use super::*;
154
155 #[test]
156 fn test_line_index() {
157 let text = "hello\nworld";
158 let index = LineIndex::new(text);
159 assert_eq!(index.line_col(0.into()), LineCol { line: 0, col_utf16: 0 });
160 assert_eq!(index.line_col(1.into()), LineCol { line: 0, col_utf16: 1 });
161 assert_eq!(index.line_col(5.into()), LineCol { line: 0, col_utf16: 5 });
162 assert_eq!(index.line_col(6.into()), LineCol { line: 1, col_utf16: 0 });
163 assert_eq!(index.line_col(7.into()), LineCol { line: 1, col_utf16: 1 });
164 assert_eq!(index.line_col(8.into()), LineCol { line: 1, col_utf16: 2 });
165 assert_eq!(index.line_col(10.into()), LineCol { line: 1, col_utf16: 4 });
166 assert_eq!(index.line_col(11.into()), LineCol { line: 1, col_utf16: 5 });
167 assert_eq!(index.line_col(12.into()), LineCol { line: 1, col_utf16: 6 });
168
169 let text = "\nhello\nworld";
170 let index = LineIndex::new(text);
171 assert_eq!(index.line_col(0.into()), LineCol { line: 0, col_utf16: 0 });
172 assert_eq!(index.line_col(1.into()), LineCol { line: 1, col_utf16: 0 });
173 assert_eq!(index.line_col(2.into()), LineCol { line: 1, col_utf16: 1 });
174 assert_eq!(index.line_col(6.into()), LineCol { line: 1, col_utf16: 5 });
175 assert_eq!(index.line_col(7.into()), LineCol { line: 2, col_utf16: 0 });
176 }
177
178 #[test]
179 fn test_char_len() {
180 assert_eq!('メ'.len_utf8(), 3);
181 assert_eq!('メ'.len_utf16(), 1);
182 }
183
184 #[test]
185 fn test_empty_index() {
186 let col_index = LineIndex::new(
187 "
188const C: char = 'x';
189",
190 );
191 assert_eq!(col_index.utf16_lines.len(), 0);
192 }
193
194 #[test]
195 fn test_single_char() {
196 let col_index = LineIndex::new(
197 "
198const C: char = 'メ';
199",
200 );
201
202 assert_eq!(col_index.utf16_lines.len(), 1);
203 assert_eq!(col_index.utf16_lines[&1].len(), 1);
204 assert_eq!(col_index.utf16_lines[&1][0], Utf16Char { start: 17.into(), end: 20.into() });
205
206 // UTF-8 to UTF-16, no changes
207 assert_eq!(col_index.utf8_to_utf16_col(1, 15.into()), 15);
208
209 // UTF-8 to UTF-16
210 assert_eq!(col_index.utf8_to_utf16_col(1, 22.into()), 20);
211
212 // UTF-16 to UTF-8, no changes
213 assert_eq!(col_index.utf16_to_utf8_col(1, 15), TextSize::from(15));
214
215 // UTF-16 to UTF-8
216 assert_eq!(col_index.utf16_to_utf8_col(1, 19), TextSize::from(21));
217
218 let col_index = LineIndex::new("a𐐏b");
219 assert_eq!(col_index.utf16_to_utf8_col(0, 3), TextSize::from(5));
220 }
221
222 #[test]
223 fn test_string() {
224 let col_index = LineIndex::new(
225 "
226const C: char = \"メ メ\";
227",
228 );
229
230 assert_eq!(col_index.utf16_lines.len(), 1);
231 assert_eq!(col_index.utf16_lines[&1].len(), 2);
232 assert_eq!(col_index.utf16_lines[&1][0], Utf16Char { start: 17.into(), end: 20.into() });
233 assert_eq!(col_index.utf16_lines[&1][1], Utf16Char { start: 21.into(), end: 24.into() });
234
235 // UTF-8 to UTF-16
236 assert_eq!(col_index.utf8_to_utf16_col(1, 15.into()), 15);
237
238 assert_eq!(col_index.utf8_to_utf16_col(1, 21.into()), 19);
239 assert_eq!(col_index.utf8_to_utf16_col(1, 25.into()), 21);
240
241 assert!(col_index.utf8_to_utf16_col(2, 15.into()) == 15);
242
243 // UTF-16 to UTF-8
244 assert_eq!(col_index.utf16_to_utf8_col(1, 15), TextSize::from(15));
245
246 // メ UTF-8: 0xE3 0x83 0xA1, UTF-16: 0x30E1
247 assert_eq!(col_index.utf16_to_utf8_col(1, 17), TextSize::from(17)); // first メ at 17..20
248 assert_eq!(col_index.utf16_to_utf8_col(1, 18), TextSize::from(20)); // space
249 assert_eq!(col_index.utf16_to_utf8_col(1, 19), TextSize::from(21)); // second メ at 21..24
250
251 assert_eq!(col_index.utf16_to_utf8_col(2, 15), TextSize::from(15));
252 }
253
254 #[test]
255 fn test_splitlines() {
256 fn r(lo: u32, hi: u32) -> TextRange {
257 TextRange::new(lo.into(), hi.into())
258 }
259
260 let text = "a\nbb\nccc\n";
261 let line_index = LineIndex::new(text);
262
263 let actual = line_index.lines(r(0, 9)).collect::<Vec<_>>();
264 let expected = vec![r(0, 2), r(2, 5), r(5, 9)];
265 assert_eq!(actual, expected);
266
267 let text = "";
268 let line_index = LineIndex::new(text);
269
270 let actual = line_index.lines(r(0, 0)).collect::<Vec<_>>();
271 let expected = vec![];
272 assert_eq!(actual, expected);
273
274 let text = "\n";
275 let line_index = LineIndex::new(text);
276
277 let actual = line_index.lines(r(0, 1)).collect::<Vec<_>>();
278 let expected = vec![r(0, 1)];
279 assert_eq!(actual, expected)
280 }
281}
diff --git a/crates/ide_db/src/search.rs b/crates/ide_db/src/search.rs
new file mode 100644
index 000000000..b9360bf12
--- /dev/null
+++ b/crates/ide_db/src/search.rs
@@ -0,0 +1,322 @@
1//! Implementation of find-usages functionality.
2//!
3//! It is based on the standard ide trick: first, we run a fast text search to
4//! get a super-set of matches. Then, we we confirm each match using precise
5//! name resolution.
6
7use std::{convert::TryInto, mem};
8
9use base_db::{FileId, FileRange, SourceDatabaseExt};
10use hir::{DefWithBody, HasSource, Module, ModuleSource, Semantics, Visibility};
11use once_cell::unsync::Lazy;
12use rustc_hash::FxHashMap;
13use syntax::{ast, match_ast, AstNode, TextRange, TextSize};
14
15use crate::{
16 defs::{classify_name_ref, Definition, NameRefClass},
17 RootDatabase,
18};
19
20#[derive(Debug, Clone)]
21pub struct Reference {
22 pub file_range: FileRange,
23 pub kind: ReferenceKind,
24 pub access: Option<ReferenceAccess>,
25}
26
27#[derive(Debug, Clone, PartialEq)]
28pub enum ReferenceKind {
29 FieldShorthandForField,
30 FieldShorthandForLocal,
31 StructLiteral,
32 Other,
33}
34
35#[derive(Debug, Copy, Clone, PartialEq)]
36pub enum ReferenceAccess {
37 Read,
38 Write,
39}
40
41/// Generally, `search_scope` returns files that might contain references for the element.
42/// For `pub(crate)` things it's a crate, for `pub` things it's a crate and dependant crates.
43/// In some cases, the location of the references is known to within a `TextRange`,
44/// e.g. for things like local variables.
45pub struct SearchScope {
46 entries: FxHashMap<FileId, Option<TextRange>>,
47}
48
49impl SearchScope {
50 fn new(entries: FxHashMap<FileId, Option<TextRange>>) -> SearchScope {
51 SearchScope { entries }
52 }
53
54 pub fn empty() -> SearchScope {
55 SearchScope::new(FxHashMap::default())
56 }
57
58 pub fn single_file(file: FileId) -> SearchScope {
59 SearchScope::new(std::iter::once((file, None)).collect())
60 }
61
62 pub fn files(files: &[FileId]) -> SearchScope {
63 SearchScope::new(files.iter().map(|f| (*f, None)).collect())
64 }
65
66 pub fn intersection(&self, other: &SearchScope) -> SearchScope {
67 let (mut small, mut large) = (&self.entries, &other.entries);
68 if small.len() > large.len() {
69 mem::swap(&mut small, &mut large)
70 }
71
72 let res = small
73 .iter()
74 .filter_map(|(file_id, r1)| {
75 let r2 = large.get(file_id)?;
76 let r = intersect_ranges(*r1, *r2)?;
77 Some((*file_id, r))
78 })
79 .collect();
80
81 return SearchScope::new(res);
82
83 fn intersect_ranges(
84 r1: Option<TextRange>,
85 r2: Option<TextRange>,
86 ) -> Option<Option<TextRange>> {
87 match (r1, r2) {
88 (None, r) | (r, None) => Some(r),
89 (Some(r1), Some(r2)) => {
90 let r = r1.intersect(r2)?;
91 Some(Some(r))
92 }
93 }
94 }
95 }
96}
97
98impl IntoIterator for SearchScope {
99 type Item = (FileId, Option<TextRange>);
100 type IntoIter = std::collections::hash_map::IntoIter<FileId, Option<TextRange>>;
101
102 fn into_iter(self) -> Self::IntoIter {
103 self.entries.into_iter()
104 }
105}
106
107impl Definition {
108 fn search_scope(&self, db: &RootDatabase) -> SearchScope {
109 let _p = profile::span("search_scope");
110 let module = match self.module(db) {
111 Some(it) => it,
112 None => return SearchScope::empty(),
113 };
114 let module_src = module.definition_source(db);
115 let file_id = module_src.file_id.original_file(db);
116
117 if let Definition::Local(var) = self {
118 let range = match var.parent(db) {
119 DefWithBody::Function(f) => f.source(db).value.syntax().text_range(),
120 DefWithBody::Const(c) => c.source(db).value.syntax().text_range(),
121 DefWithBody::Static(s) => s.source(db).value.syntax().text_range(),
122 };
123 let mut res = FxHashMap::default();
124 res.insert(file_id, Some(range));
125 return SearchScope::new(res);
126 }
127
128 let vis = self.visibility(db);
129
130 if let Some(Visibility::Module(module)) = vis.and_then(|it| it.into()) {
131 let module: Module = module.into();
132 let mut res = FxHashMap::default();
133
134 let mut to_visit = vec![module];
135 let mut is_first = true;
136 while let Some(module) = to_visit.pop() {
137 let src = module.definition_source(db);
138 let file_id = src.file_id.original_file(db);
139 match src.value {
140 ModuleSource::Module(m) => {
141 if is_first {
142 let range = Some(m.syntax().text_range());
143 res.insert(file_id, range);
144 } else {
145 // We have already added the enclosing file to the search scope,
146 // so do nothing.
147 }
148 }
149 ModuleSource::SourceFile(_) => {
150 res.insert(file_id, None);
151 }
152 };
153 is_first = false;
154 to_visit.extend(module.children(db));
155 }
156
157 return SearchScope::new(res);
158 }
159
160 if let Some(Visibility::Public) = vis {
161 let source_root_id = db.file_source_root(file_id);
162 let source_root = db.source_root(source_root_id);
163 let mut res = source_root.iter().map(|id| (id, None)).collect::<FxHashMap<_, _>>();
164
165 let krate = module.krate();
166 for rev_dep in krate.reverse_dependencies(db) {
167 let root_file = rev_dep.root_file(db);
168 let source_root_id = db.file_source_root(root_file);
169 let source_root = db.source_root(source_root_id);
170 res.extend(source_root.iter().map(|id| (id, None)));
171 }
172 return SearchScope::new(res);
173 }
174
175 let mut res = FxHashMap::default();
176 let range = match module_src.value {
177 ModuleSource::Module(m) => Some(m.syntax().text_range()),
178 ModuleSource::SourceFile(_) => None,
179 };
180 res.insert(file_id, range);
181 SearchScope::new(res)
182 }
183
184 pub fn find_usages(
185 &self,
186 sema: &Semantics<RootDatabase>,
187 search_scope: Option<SearchScope>,
188 ) -> Vec<Reference> {
189 let _p = profile::span("Definition::find_usages");
190
191 let search_scope = {
192 let base = self.search_scope(sema.db);
193 match search_scope {
194 None => base,
195 Some(scope) => base.intersection(&scope),
196 }
197 };
198
199 let name = match self.name(sema.db) {
200 None => return Vec::new(),
201 Some(it) => it.to_string(),
202 };
203
204 let pat = name.as_str();
205 let mut refs = vec![];
206
207 for (file_id, search_range) in search_scope {
208 let text = sema.db.file_text(file_id);
209 let search_range =
210 search_range.unwrap_or(TextRange::up_to(TextSize::of(text.as_str())));
211
212 let tree = Lazy::new(|| sema.parse(file_id).syntax().clone());
213
214 for (idx, _) in text.match_indices(pat) {
215 let offset: TextSize = idx.try_into().unwrap();
216 if !search_range.contains_inclusive(offset) {
217 continue;
218 }
219
220 let name_ref: ast::NameRef =
221 if let Some(name_ref) = sema.find_node_at_offset_with_descend(&tree, offset) {
222 name_ref
223 } else {
224 continue;
225 };
226
227 match classify_name_ref(&sema, &name_ref) {
228 Some(NameRefClass::Definition(def)) if &def == self => {
229 let kind = if is_record_lit_name_ref(&name_ref)
230 || is_call_expr_name_ref(&name_ref)
231 {
232 ReferenceKind::StructLiteral
233 } else {
234 ReferenceKind::Other
235 };
236
237 let file_range = sema.original_range(name_ref.syntax());
238 refs.push(Reference {
239 file_range,
240 kind,
241 access: reference_access(&def, &name_ref),
242 });
243 }
244 Some(NameRefClass::FieldShorthand { local, field }) => {
245 match self {
246 Definition::Field(_) if &field == self => refs.push(Reference {
247 file_range: sema.original_range(name_ref.syntax()),
248 kind: ReferenceKind::FieldShorthandForField,
249 access: reference_access(&field, &name_ref),
250 }),
251 Definition::Local(l) if &local == l => refs.push(Reference {
252 file_range: sema.original_range(name_ref.syntax()),
253 kind: ReferenceKind::FieldShorthandForLocal,
254 access: reference_access(&Definition::Local(local), &name_ref),
255 }),
256
257 _ => {} // not a usage
258 };
259 }
260 _ => {} // not a usage
261 }
262 }
263 }
264 refs
265 }
266}
267
268fn reference_access(def: &Definition, name_ref: &ast::NameRef) -> Option<ReferenceAccess> {
269 // Only Locals and Fields have accesses for now.
270 match def {
271 Definition::Local(_) | Definition::Field(_) => {}
272 _ => return None,
273 };
274
275 let mode = name_ref.syntax().ancestors().find_map(|node| {
276 match_ast! {
277 match (node) {
278 ast::BinExpr(expr) => {
279 if expr.op_kind()?.is_assignment() {
280 // If the variable or field ends on the LHS's end then it's a Write (covers fields and locals).
281 // FIXME: This is not terribly accurate.
282 if let Some(lhs) = expr.lhs() {
283 if lhs.syntax().text_range().end() == name_ref.syntax().text_range().end() {
284 return Some(ReferenceAccess::Write);
285 }
286 }
287 }
288 Some(ReferenceAccess::Read)
289 },
290 _ => None
291 }
292 }
293 });
294
295 // Default Locals and Fields to read
296 mode.or(Some(ReferenceAccess::Read))
297}
298
299fn is_call_expr_name_ref(name_ref: &ast::NameRef) -> bool {
300 name_ref
301 .syntax()
302 .ancestors()
303 .find_map(ast::CallExpr::cast)
304 .and_then(|c| match c.expr()? {
305 ast::Expr::PathExpr(p) => {
306 Some(p.path()?.segment()?.name_ref().as_ref() == Some(name_ref))
307 }
308 _ => None,
309 })
310 .unwrap_or(false)
311}
312
313fn is_record_lit_name_ref(name_ref: &ast::NameRef) -> bool {
314 name_ref
315 .syntax()
316 .ancestors()
317 .find_map(ast::RecordExpr::cast)
318 .and_then(|l| l.path())
319 .and_then(|p| p.segment())
320 .map(|p| p.name_ref().as_ref() == Some(name_ref))
321 .unwrap_or(false)
322}
diff --git a/crates/ide_db/src/source_change.rs b/crates/ide_db/src/source_change.rs
new file mode 100644
index 000000000..f1590ec66
--- /dev/null
+++ b/crates/ide_db/src/source_change.rs
@@ -0,0 +1,59 @@
1//! This modules defines type to represent changes to the source code, that flow
2//! from the server to the client.
3//!
4//! It can be viewed as a dual for `AnalysisChange`.
5
6use base_db::FileId;
7use text_edit::TextEdit;
8
9#[derive(Default, Debug, Clone)]
10pub struct SourceChange {
11 pub source_file_edits: Vec<SourceFileEdit>,
12 pub file_system_edits: Vec<FileSystemEdit>,
13 pub is_snippet: bool,
14}
15
16impl SourceChange {
17 /// Creates a new SourceChange with the given label
18 /// from the edits.
19 pub fn from_edits(
20 source_file_edits: Vec<SourceFileEdit>,
21 file_system_edits: Vec<FileSystemEdit>,
22 ) -> Self {
23 SourceChange { source_file_edits, file_system_edits, is_snippet: false }
24 }
25}
26
27#[derive(Debug, Clone)]
28pub struct SourceFileEdit {
29 pub file_id: FileId,
30 pub edit: TextEdit,
31}
32
33impl From<SourceFileEdit> for SourceChange {
34 fn from(edit: SourceFileEdit) -> SourceChange {
35 vec![edit].into()
36 }
37}
38
39impl From<Vec<SourceFileEdit>> for SourceChange {
40 fn from(source_file_edits: Vec<SourceFileEdit>) -> SourceChange {
41 SourceChange { source_file_edits, file_system_edits: Vec::new(), is_snippet: false }
42 }
43}
44
45#[derive(Debug, Clone)]
46pub enum FileSystemEdit {
47 CreateFile { anchor: FileId, dst: String },
48 MoveFile { src: FileId, anchor: FileId, dst: String },
49}
50
51impl From<FileSystemEdit> for SourceChange {
52 fn from(edit: FileSystemEdit) -> SourceChange {
53 SourceChange {
54 source_file_edits: Vec::new(),
55 file_system_edits: vec![edit],
56 is_snippet: false,
57 }
58 }
59}
diff --git a/crates/ide_db/src/symbol_index.rs b/crates/ide_db/src/symbol_index.rs
new file mode 100644
index 000000000..654df898e
--- /dev/null
+++ b/crates/ide_db/src/symbol_index.rs
@@ -0,0 +1,429 @@
1//! This module handles fuzzy-searching of functions, structs and other symbols
2//! by name across the whole workspace and dependencies.
3//!
4//! It works by building an incrementally-updated text-search index of all
5//! symbols. The backbone of the index is the **awesome** `fst` crate by
6//! @BurntSushi.
7//!
8//! In a nutshell, you give a set of strings to `fst`, and it builds a
9//! finite state machine describing this set of strings. The strings which
10//! could fuzzy-match a pattern can also be described by a finite state machine.
11//! What is freaking cool is that you can now traverse both state machines in
12//! lock-step to enumerate the strings which are both in the input set and
13//! fuzz-match the query. Or, more formally, given two languages described by
14//! FSTs, one can build a product FST which describes the intersection of the
15//! languages.
16//!
17//! `fst` does not support cheap updating of the index, but it supports unioning
18//! of state machines. So, to account for changing source code, we build an FST
19//! for each library (which is assumed to never change) and an FST for each Rust
20//! file in the current workspace, and run a query against the union of all
21//! those FSTs.
22
23use std::{
24 cmp::Ordering,
25 fmt,
26 hash::{Hash, Hasher},
27 mem,
28 sync::Arc,
29};
30
31use base_db::{
32 salsa::{self, ParallelDatabase},
33 CrateId, FileId, SourceDatabaseExt, SourceRootId,
34};
35use fst::{self, Streamer};
36use hir::db::DefDatabase;
37use rayon::prelude::*;
38use rustc_hash::{FxHashMap, FxHashSet};
39use syntax::{
40 ast::{self, NameOwner},
41 match_ast, AstNode, Parse, SmolStr, SourceFile,
42 SyntaxKind::{self, *},
43 SyntaxNode, SyntaxNodePtr, TextRange, WalkEvent,
44};
45
46use crate::RootDatabase;
47
48#[derive(Debug)]
49pub struct Query {
50 query: String,
51 lowercased: String,
52 only_types: bool,
53 libs: bool,
54 exact: bool,
55 limit: usize,
56}
57
58impl Query {
59 pub fn new(query: String) -> Query {
60 let lowercased = query.to_lowercase();
61 Query {
62 query,
63 lowercased,
64 only_types: false,
65 libs: false,
66 exact: false,
67 limit: usize::max_value(),
68 }
69 }
70
71 pub fn only_types(&mut self) {
72 self.only_types = true;
73 }
74
75 pub fn libs(&mut self) {
76 self.libs = true;
77 }
78
79 pub fn exact(&mut self) {
80 self.exact = true;
81 }
82
83 pub fn limit(&mut self, limit: usize) {
84 self.limit = limit
85 }
86}
87
88#[salsa::query_group(SymbolsDatabaseStorage)]
89pub trait SymbolsDatabase: hir::db::HirDatabase + SourceDatabaseExt {
90 fn file_symbols(&self, file_id: FileId) -> Arc<SymbolIndex>;
91 fn library_symbols(&self) -> Arc<FxHashMap<SourceRootId, SymbolIndex>>;
92 /// The set of "local" (that is, from the current workspace) roots.
93 /// Files in local roots are assumed to change frequently.
94 #[salsa::input]
95 fn local_roots(&self) -> Arc<FxHashSet<SourceRootId>>;
96 /// The set of roots for crates.io libraries.
97 /// Files in libraries are assumed to never change.
98 #[salsa::input]
99 fn library_roots(&self) -> Arc<FxHashSet<SourceRootId>>;
100}
101
102fn library_symbols(db: &dyn SymbolsDatabase) -> Arc<FxHashMap<SourceRootId, SymbolIndex>> {
103 let _p = profile::span("library_symbols");
104
105 let roots = db.library_roots();
106 let res = roots
107 .iter()
108 .map(|&root_id| {
109 let root = db.source_root(root_id);
110 let files = root
111 .iter()
112 .map(|it| (it, SourceDatabaseExt::file_text(db, it)))
113 .collect::<Vec<_>>();
114 let symbol_index = SymbolIndex::for_files(
115 files.into_par_iter().map(|(file, text)| (file, SourceFile::parse(&text))),
116 );
117 (root_id, symbol_index)
118 })
119 .collect();
120 Arc::new(res)
121}
122
123fn file_symbols(db: &dyn SymbolsDatabase, file_id: FileId) -> Arc<SymbolIndex> {
124 db.check_canceled();
125 let parse = db.parse(file_id);
126
127 let symbols = source_file_to_file_symbols(&parse.tree(), file_id);
128
129 // FIXME: add macros here
130
131 Arc::new(SymbolIndex::new(symbols))
132}
133
134/// Need to wrap Snapshot to provide `Clone` impl for `map_with`
135struct Snap<DB>(DB);
136impl<DB: ParallelDatabase> Clone for Snap<salsa::Snapshot<DB>> {
137 fn clone(&self) -> Snap<salsa::Snapshot<DB>> {
138 Snap(self.0.snapshot())
139 }
140}
141
142// Feature: Workspace Symbol
143//
144// Uses fuzzy-search to find types, modules and functions by name across your
145// project and dependencies. This is **the** most useful feature, which improves code
146// navigation tremendously. It mostly works on top of the built-in LSP
147// functionality, however `#` and `*` symbols can be used to narrow down the
148// search. Specifically,
149//
150// - `Foo` searches for `Foo` type in the current workspace
151// - `foo#` searches for `foo` function in the current workspace
152// - `Foo*` searches for `Foo` type among dependencies, including `stdlib`
153// - `foo#*` searches for `foo` function among dependencies
154//
155// That is, `#` switches from "types" to all symbols, `*` switches from the current
156// workspace to dependencies.
157//
158// |===
159// | Editor | Shortcut
160//
161// | VS Code | kbd:[Ctrl+T]
162// |===
163pub fn world_symbols(db: &RootDatabase, query: Query) -> Vec<FileSymbol> {
164 let _p = profile::span("world_symbols").detail(|| query.query.clone());
165
166 let tmp1;
167 let tmp2;
168 let buf: Vec<&SymbolIndex> = if query.libs {
169 tmp1 = db.library_symbols();
170 tmp1.values().collect()
171 } else {
172 let mut files = Vec::new();
173 for &root in db.local_roots().iter() {
174 let sr = db.source_root(root);
175 files.extend(sr.iter())
176 }
177
178 let snap = Snap(db.snapshot());
179 tmp2 = files
180 .par_iter()
181 .map_with(snap, |db, &file_id| db.0.file_symbols(file_id))
182 .collect::<Vec<_>>();
183 tmp2.iter().map(|it| &**it).collect()
184 };
185 query.search(&buf)
186}
187
188pub fn crate_symbols(db: &RootDatabase, krate: CrateId, query: Query) -> Vec<FileSymbol> {
189 // FIXME(#4842): This now depends on CrateDefMap, why not build the entire symbol index from
190 // that instead?
191
192 let def_map = db.crate_def_map(krate);
193 let mut files = Vec::new();
194 let mut modules = vec![def_map.root];
195 while let Some(module) = modules.pop() {
196 let data = &def_map[module];
197 files.extend(data.origin.file_id());
198 modules.extend(data.children.values());
199 }
200
201 let snap = Snap(db.snapshot());
202
203 let buf = files
204 .par_iter()
205 .map_with(snap, |db, &file_id| db.0.file_symbols(file_id))
206 .collect::<Vec<_>>();
207 let buf = buf.iter().map(|it| &**it).collect::<Vec<_>>();
208
209 query.search(&buf)
210}
211
212pub fn index_resolve(db: &RootDatabase, name_ref: &ast::NameRef) -> Vec<FileSymbol> {
213 let name = name_ref.text();
214 let mut query = Query::new(name.to_string());
215 query.exact();
216 query.limit(4);
217 world_symbols(db, query)
218}
219
220#[derive(Default)]
221pub struct SymbolIndex {
222 symbols: Vec<FileSymbol>,
223 map: fst::Map<Vec<u8>>,
224}
225
226impl fmt::Debug for SymbolIndex {
227 fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
228 f.debug_struct("SymbolIndex").field("n_symbols", &self.symbols.len()).finish()
229 }
230}
231
232impl PartialEq for SymbolIndex {
233 fn eq(&self, other: &SymbolIndex) -> bool {
234 self.symbols == other.symbols
235 }
236}
237
238impl Eq for SymbolIndex {}
239
240impl Hash for SymbolIndex {
241 fn hash<H: Hasher>(&self, hasher: &mut H) {
242 self.symbols.hash(hasher)
243 }
244}
245
246impl SymbolIndex {
247 fn new(mut symbols: Vec<FileSymbol>) -> SymbolIndex {
248 fn cmp(lhs: &FileSymbol, rhs: &FileSymbol) -> Ordering {
249 let lhs_chars = lhs.name.chars().map(|c| c.to_ascii_lowercase());
250 let rhs_chars = rhs.name.chars().map(|c| c.to_ascii_lowercase());
251 lhs_chars.cmp(rhs_chars)
252 }
253
254 symbols.par_sort_by(cmp);
255
256 let mut builder = fst::MapBuilder::memory();
257
258 let mut last_batch_start = 0;
259
260 for idx in 0..symbols.len() {
261 if let Some(next_symbol) = symbols.get(idx + 1) {
262 if cmp(&symbols[last_batch_start], next_symbol) == Ordering::Equal {
263 continue;
264 }
265 }
266
267 let start = last_batch_start;
268 let end = idx + 1;
269 last_batch_start = end;
270
271 let key = symbols[start].name.as_str().to_ascii_lowercase();
272 let value = SymbolIndex::range_to_map_value(start, end);
273
274 builder.insert(key, value).unwrap();
275 }
276
277 let map = fst::Map::new(builder.into_inner().unwrap()).unwrap();
278 SymbolIndex { symbols, map }
279 }
280
281 pub fn len(&self) -> usize {
282 self.symbols.len()
283 }
284
285 pub fn memory_size(&self) -> usize {
286 self.map.as_fst().size() + self.symbols.len() * mem::size_of::<FileSymbol>()
287 }
288
289 pub(crate) fn for_files(
290 files: impl ParallelIterator<Item = (FileId, Parse<ast::SourceFile>)>,
291 ) -> SymbolIndex {
292 let symbols = files
293 .flat_map(|(file_id, file)| source_file_to_file_symbols(&file.tree(), file_id))
294 .collect::<Vec<_>>();
295 SymbolIndex::new(symbols)
296 }
297
298 fn range_to_map_value(start: usize, end: usize) -> u64 {
299 debug_assert![start <= (std::u32::MAX as usize)];
300 debug_assert![end <= (std::u32::MAX as usize)];
301
302 ((start as u64) << 32) | end as u64
303 }
304
305 fn map_value_to_range(value: u64) -> (usize, usize) {
306 let end = value as u32 as usize;
307 let start = (value >> 32) as usize;
308 (start, end)
309 }
310}
311
312impl Query {
313 pub(crate) fn search(self, indices: &[&SymbolIndex]) -> Vec<FileSymbol> {
314 let mut op = fst::map::OpBuilder::new();
315 for file_symbols in indices.iter() {
316 let automaton = fst::automaton::Subsequence::new(&self.lowercased);
317 op = op.add(file_symbols.map.search(automaton))
318 }
319 let mut stream = op.union();
320 let mut res = Vec::new();
321 while let Some((_, indexed_values)) = stream.next() {
322 for indexed_value in indexed_values {
323 let symbol_index = &indices[indexed_value.index];
324 let (start, end) = SymbolIndex::map_value_to_range(indexed_value.value);
325
326 for symbol in &symbol_index.symbols[start..end] {
327 if self.only_types && !is_type(symbol.kind) {
328 continue;
329 }
330 if self.exact && symbol.name != self.query {
331 continue;
332 }
333
334 res.push(symbol.clone());
335 if res.len() >= self.limit {
336 return res;
337 }
338 }
339 }
340 }
341 res
342 }
343}
344
345fn is_type(kind: SyntaxKind) -> bool {
346 matches!(kind, STRUCT | ENUM | TRAIT | TYPE_ALIAS)
347}
348
349/// The actual data that is stored in the index. It should be as compact as
350/// possible.
351#[derive(Debug, Clone, PartialEq, Eq, Hash)]
352pub struct FileSymbol {
353 pub file_id: FileId,
354 pub name: SmolStr,
355 pub kind: SyntaxKind,
356 pub range: TextRange,
357 pub ptr: SyntaxNodePtr,
358 pub name_range: Option<TextRange>,
359 pub container_name: Option<SmolStr>,
360}
361
362fn source_file_to_file_symbols(source_file: &SourceFile, file_id: FileId) -> Vec<FileSymbol> {
363 let mut symbols = Vec::new();
364 let mut stack = Vec::new();
365
366 for event in source_file.syntax().preorder() {
367 match event {
368 WalkEvent::Enter(node) => {
369 if let Some(mut symbol) = to_file_symbol(&node, file_id) {
370 symbol.container_name = stack.last().cloned();
371
372 stack.push(symbol.name.clone());
373 symbols.push(symbol);
374 }
375 }
376
377 WalkEvent::Leave(node) => {
378 if to_symbol(&node).is_some() {
379 stack.pop();
380 }
381 }
382 }
383 }
384
385 symbols
386}
387
388fn to_symbol(node: &SyntaxNode) -> Option<(SmolStr, SyntaxNodePtr, TextRange)> {
389 fn decl<N: NameOwner>(node: N) -> Option<(SmolStr, SyntaxNodePtr, TextRange)> {
390 let name = node.name()?;
391 let name_range = name.syntax().text_range();
392 let name = name.text().clone();
393 let ptr = SyntaxNodePtr::new(node.syntax());
394
395 Some((name, ptr, name_range))
396 }
397 match_ast! {
398 match node {
399 ast::Fn(it) => decl(it),
400 ast::Struct(it) => decl(it),
401 ast::Enum(it) => decl(it),
402 ast::Trait(it) => decl(it),
403 ast::Module(it) => decl(it),
404 ast::TypeAlias(it) => decl(it),
405 ast::Const(it) => decl(it),
406 ast::Static(it) => decl(it),
407 ast::MacroCall(it) => {
408 if it.is_macro_rules().is_some() {
409 decl(it)
410 } else {
411 None
412 }
413 },
414 _ => None,
415 }
416 }
417}
418
419fn to_file_symbol(node: &SyntaxNode, file_id: FileId) -> Option<FileSymbol> {
420 to_symbol(node).map(move |(name, ptr, name_range)| FileSymbol {
421 name,
422 kind: node.kind(),
423 range: node.text_range(),
424 ptr,
425 file_id,
426 name_range: Some(name_range),
427 container_name: None,
428 })
429}
diff --git a/crates/ide_db/src/wasm_shims.rs b/crates/ide_db/src/wasm_shims.rs
new file mode 100644
index 000000000..7af9f9d9b
--- /dev/null
+++ b/crates/ide_db/src/wasm_shims.rs
@@ -0,0 +1,19 @@
1//! A version of `std::time::Instant` that doesn't panic in WASM.
2
3#[cfg(not(feature = "wasm"))]
4pub use std::time::Instant;
5
6#[cfg(feature = "wasm")]
7#[derive(Clone, Copy, Debug)]
8pub struct Instant;
9
10#[cfg(feature = "wasm")]
11impl Instant {
12 pub fn now() -> Self {
13 Self
14 }
15
16 pub fn elapsed(&self) -> std::time::Duration {
17 std::time::Duration::new(0, 0)
18 }
19}