//! ra_ide crate provides "ide-centric" APIs for the rust-analyzer. That is, //! it generally operates with files and text ranges, and returns results as //! Strings, suitable for displaying to the human. //! //! What powers this API are the `RootDatabase` struct, which defines a `salsa` //! database, and the `ra_hir` crate, where majority of the analysis happens. //! However, IDE specific bits of the analysis (most notably completion) happen //! in this crate. // For proving that RootDatabase is RefUnwindSafe. #![recursion_limit = "128"] #[allow(unused)] macro_rules! eprintln { ($($tt:tt)*) => { stdx::eprintln!($($tt)*) }; } pub mod mock_analysis; mod markup; mod prime_caches; mod status; mod completion; mod runnables; mod goto_definition; mod goto_type_definition; mod goto_implementation; mod extend_selection; mod hover; mod call_hierarchy; mod call_info; mod syntax_highlighting; mod parent_module; mod references; mod diagnostics; mod syntax_tree; mod folding_ranges; mod join_lines; mod typing; mod matching_brace; mod display; mod inlay_hints; mod expand_macro; mod ssr; use std::sync::Arc; use ra_cfg::CfgOptions; use ra_db::{ salsa::{self, ParallelDatabase}, CheckCanceled, Env, FileLoader, FileSet, SourceDatabase, VfsPath, }; use ra_ide_db::{ symbol_index::{self, FileSymbol}, LineIndexDatabase, }; use ra_syntax::{SourceFile, TextRange, TextSize}; use crate::display::ToNav; pub use crate::{ call_hierarchy::CallItem, completion::{ CompletionConfig, CompletionItem, CompletionItemKind, CompletionScore, InsertTextFormat, }, diagnostics::Severity, display::{file_structure, FunctionSignature, NavigationTarget, StructureNode}, expand_macro::ExpandedMacro, folding_ranges::{Fold, FoldKind}, hover::{HoverAction, HoverConfig, HoverGotoTypeData, HoverResult}, inlay_hints::{InlayHint, InlayHintsConfig, InlayKind}, markup::Markup, references::{Declaration, Reference, ReferenceAccess, ReferenceKind, ReferenceSearchResult}, runnables::{Runnable, RunnableKind, TestId}, syntax_highlighting::{ Highlight, HighlightModifier, HighlightModifiers, HighlightTag, HighlightedRange, }, }; pub use hir::{Documentation, Semantics}; pub use ra_assists::{Assist, AssistConfig, AssistId, AssistKind, ResolvedAssist}; pub use ra_db::{ Canceled, CrateGraph, CrateId, Edition, FileId, FilePosition, FileRange, SourceRoot, SourceRootId, }; pub use ra_ide_db::{ change::AnalysisChange, line_index::{LineCol, LineIndex}, search::SearchScope, source_change::{FileSystemEdit, SourceChange, SourceFileEdit}, symbol_index::Query, RootDatabase, }; pub use ra_ssr::SsrError; pub use ra_text_edit::{Indel, TextEdit}; pub type Cancelable = Result; #[derive(Debug)] pub struct Diagnostic { pub message: String, pub range: TextRange, pub severity: Severity, pub fix: Option, } #[derive(Debug)] pub struct Fix { pub label: String, pub source_change: SourceChange, } impl Fix { pub fn new(label: impl Into, source_change: SourceChange) -> Self { let label = label.into(); assert!(label.starts_with(char::is_uppercase) && !label.ends_with('.')); Self { label, source_change } } } /// Info associated with a text range. #[derive(Debug)] pub struct RangeInfo { pub range: TextRange, pub info: T, } impl RangeInfo { pub fn new(range: TextRange, info: T) -> RangeInfo { RangeInfo { range, info } } } /// Contains information about a call site. Specifically the /// `FunctionSignature`and current parameter. #[derive(Debug)] pub struct CallInfo { pub signature: FunctionSignature, pub active_parameter: Option, } /// `AnalysisHost` stores the current state of the world. #[derive(Debug)] pub struct AnalysisHost { db: RootDatabase, } impl AnalysisHost { pub fn new(lru_capacity: Option) -> AnalysisHost { AnalysisHost { db: RootDatabase::new(lru_capacity) } } pub fn update_lru_capacity(&mut self, lru_capacity: Option) { self.db.update_lru_capacity(lru_capacity); } /// Returns a snapshot of the current state, which you can query for /// semantic information. pub fn analysis(&self) -> Analysis { Analysis { db: self.db.snapshot() } } /// Applies changes to the current state of the world. If there are /// outstanding snapshots, they will be canceled. pub fn apply_change(&mut self, change: AnalysisChange) { self.db.apply_change(change) } pub fn maybe_collect_garbage(&mut self) { self.db.maybe_collect_garbage(); } pub fn collect_garbage(&mut self) { self.db.collect_garbage(); } /// NB: this clears the database pub fn per_query_memory_usage(&mut self) -> Vec<(String, ra_prof::Bytes)> { self.db.per_query_memory_usage() } pub fn request_cancellation(&mut self) { self.db.request_cancellation(); } pub fn raw_database(&self) -> &RootDatabase { &self.db } pub fn raw_database_mut(&mut self) -> &mut RootDatabase { &mut self.db } } impl Default for AnalysisHost { fn default() -> AnalysisHost { AnalysisHost::new(None) } } /// Analysis is a snapshot of a world state at a moment in time. It is the main /// entry point for asking semantic information about the world. When the world /// state is advanced using `AnalysisHost::apply_change` method, all existing /// `Analysis` are canceled (most method return `Err(Canceled)`). #[derive(Debug)] pub struct Analysis { db: salsa::Snapshot, } // As a general design guideline, `Analysis` API are intended to be independent // from the language server protocol. That is, when exposing some functionality // we should think in terms of "what API makes most sense" and not in terms of // "what types LSP uses". Although currently LSP is the only consumer of the // API, the API should in theory be usable as a library, or via a different // protocol. impl Analysis { // Creates an analysis instance for a single file, without any extenal // dependencies, stdlib support or ability to apply changes. See // `AnalysisHost` for creating a fully-featured analysis. pub fn from_single_file(text: String) -> (Analysis, FileId) { let mut host = AnalysisHost::default(); let file_id = FileId(0); let mut file_set = FileSet::default(); file_set.insert(file_id, VfsPath::new_virtual_path("/main.rs".to_string())); let source_root = SourceRoot::new_local(file_set); let mut change = AnalysisChange::new(); change.set_roots(vec![source_root]); let mut crate_graph = CrateGraph::default(); // FIXME: cfg options // Default to enable test for single file. let mut cfg_options = CfgOptions::default(); cfg_options.insert_atom("test".into()); crate_graph.add_crate_root( file_id, Edition::Edition2018, None, cfg_options, Env::default(), Default::default(), ); change.change_file(file_id, Some(Arc::new(text))); change.set_crate_graph(crate_graph); host.apply_change(change); (host.analysis(), file_id) } /// Debug info about the current state of the analysis. pub fn status(&self) -> Cancelable { self.with_db(|db| status::status(&*db)) } pub fn prime_caches(&self, files: Vec) -> Cancelable<()> { self.with_db(|db| prime_caches::prime_caches(db, files)) } /// Gets the text of the source file. pub fn file_text(&self, file_id: FileId) -> Cancelable> { self.with_db(|db| db.file_text(file_id)) } /// Gets the syntax tree of the file. pub fn parse(&self, file_id: FileId) -> Cancelable { self.with_db(|db| db.parse(file_id).tree()) } /// Gets the file's `LineIndex`: data structure to convert between absolute /// offsets and line/column representation. pub fn file_line_index(&self, file_id: FileId) -> Cancelable> { self.with_db(|db| db.line_index(file_id)) } /// Selects the next syntactic nodes encompassing the range. pub fn extend_selection(&self, frange: FileRange) -> Cancelable { self.with_db(|db| extend_selection::extend_selection(db, frange)) } /// Returns position of the matching brace (all types of braces are /// supported). pub fn matching_brace(&self, position: FilePosition) -> Cancelable> { self.with_db(|db| { let parse = db.parse(position.file_id); let file = parse.tree(); matching_brace::matching_brace(&file, position.offset) }) } /// Returns a syntax tree represented as `String`, for debug purposes. // FIXME: use a better name here. pub fn syntax_tree( &self, file_id: FileId, text_range: Option, ) -> Cancelable { self.with_db(|db| syntax_tree::syntax_tree(&db, file_id, text_range)) } pub fn expand_macro(&self, position: FilePosition) -> Cancelable> { self.with_db(|db| expand_macro::expand_macro(db, position)) } /// Returns an edit to remove all newlines in the range, cleaning up minor /// stuff like trailing commas. pub fn join_lines(&self, frange: FileRange) -> Cancelable { self.with_db(|db| { let parse = db.parse(frange.file_id); join_lines::join_lines(&parse.tree(), frange.range) }) } /// Returns an edit which should be applied when opening a new line, fixing /// up minor stuff like continuing the comment. /// The edit will be a snippet (with `$0`). pub fn on_enter(&self, position: FilePosition) -> Cancelable> { self.with_db(|db| typing::on_enter(&db, position)) } /// Returns an edit which should be applied after a character was typed. /// /// This is useful for some on-the-fly fixups, like adding `;` to `let =` /// automatically. pub fn on_char_typed( &self, position: FilePosition, char_typed: char, ) -> Cancelable> { // Fast path to not even parse the file. if !typing::TRIGGER_CHARS.contains(char_typed) { return Ok(None); } self.with_db(|db| typing::on_char_typed(&db, position, char_typed)) } /// Returns a tree representation of symbols in the file. Useful to draw a /// file outline. pub fn file_structure(&self, file_id: FileId) -> Cancelable> { self.with_db(|db| file_structure(&db.parse(file_id).tree())) } /// Returns a list of the places in the file where type hints can be displayed. pub fn inlay_hints( &self, file_id: FileId, config: &InlayHintsConfig, ) -> Cancelable> { self.with_db(|db| inlay_hints::inlay_hints(db, file_id, config)) } /// Returns the set of folding ranges. pub fn folding_ranges(&self, file_id: FileId) -> Cancelable> { self.with_db(|db| folding_ranges::folding_ranges(&db.parse(file_id).tree())) } /// Fuzzy searches for a symbol. pub fn symbol_search(&self, query: Query) -> Cancelable> { self.with_db(|db| { symbol_index::world_symbols(db, query) .into_iter() .map(|s| s.to_nav(db)) .collect::>() }) } /// Returns the definitions from the symbol at `position`. pub fn goto_definition( &self, position: FilePosition, ) -> Cancelable>>> { self.with_db(|db| goto_definition::goto_definition(db, position)) } /// Returns the impls from the symbol at `position`. pub fn goto_implementation( &self, position: FilePosition, ) -> Cancelable>>> { self.with_db(|db| goto_implementation::goto_implementation(db, position)) } /// Returns the type definitions for the symbol at `position`. pub fn goto_type_definition( &self, position: FilePosition, ) -> Cancelable>>> { self.with_db(|db| goto_type_definition::goto_type_definition(db, position)) } /// Finds all usages of the reference at point. pub fn find_all_refs( &self, position: FilePosition, search_scope: Option, ) -> Cancelable> { self.with_db(|db| { references::find_all_refs(&Semantics::new(db), position, search_scope).map(|it| it.info) }) } /// Returns a short text describing element at position. pub fn hover(&self, position: FilePosition) -> Cancelable>> { self.with_db(|db| hover::hover(db, position)) } /// Computes parameter information for the given call expression. pub fn call_info(&self, position: FilePosition) -> Cancelable> { self.with_db(|db| call_info::call_info(db, position)) } /// Computes call hierarchy candidates for the given file position. pub fn call_hierarchy( &self, position: FilePosition, ) -> Cancelable>>> { self.with_db(|db| call_hierarchy::call_hierarchy(db, position)) } /// Computes incoming calls for the given file position. pub fn incoming_calls(&self, position: FilePosition) -> Cancelable>> { self.with_db(|db| call_hierarchy::incoming_calls(db, position)) } /// Computes incoming calls for the given file position. pub fn outgoing_calls(&self, position: FilePosition) -> Cancelable>> { self.with_db(|db| call_hierarchy::outgoing_calls(db, position)) } /// Returns a `mod name;` declaration which created the current module. pub fn parent_module(&self, position: FilePosition) -> Cancelable> { self.with_db(|db| parent_module::parent_module(db, position)) } /// Returns crates this file belongs too. pub fn crate_for(&self, file_id: FileId) -> Cancelable> { self.with_db(|db| parent_module::crate_for(db, file_id)) } /// Returns the edition of the given crate. pub fn crate_edition(&self, crate_id: CrateId) -> Cancelable { self.with_db(|db| db.crate_graph()[crate_id].edition) } /// Returns the root file of the given crate. pub fn crate_root(&self, crate_id: CrateId) -> Cancelable { self.with_db(|db| db.crate_graph()[crate_id].root_file_id) } /// Returns the set of possible targets to run for the current file. pub fn runnables(&self, file_id: FileId) -> Cancelable> { self.with_db(|db| runnables::runnables(db, file_id)) } /// Computes syntax highlighting for the given file pub fn highlight(&self, file_id: FileId) -> Cancelable> { self.with_db(|db| syntax_highlighting::highlight(db, file_id, None, false)) } /// Computes syntax highlighting for the given file range. pub fn highlight_range(&self, frange: FileRange) -> Cancelable> { self.with_db(|db| { syntax_highlighting::highlight(db, frange.file_id, Some(frange.range), false) }) } /// Computes syntax highlighting for the given file. pub fn highlight_as_html(&self, file_id: FileId, rainbow: bool) -> Cancelable { self.with_db(|db| syntax_highlighting::highlight_as_html(db, file_id, rainbow)) } /// Computes completions at the given position. pub fn completions( &self, config: &CompletionConfig, position: FilePosition, ) -> Cancelable>> { self.with_db(|db| completion::completions(db, config, position).map(Into::into)) } /// Computes resolved assists with source changes for the given position. pub fn resolved_assists( &self, config: &AssistConfig, frange: FileRange, allowed: Option>, ) -> Cancelable> { self.with_db(|db| ra_assists::Assist::resolved(db, config, frange, allowed)) } /// Computes unresolved assists (aka code actions aka intentions) for the given /// position. pub fn unresolved_assists( &self, config: &AssistConfig, frange: FileRange, allowed: Option>, ) -> Cancelable> { self.with_db(|db| Assist::unresolved(db, config, frange, allowed)) } /// Computes the set of diagnostics for the given file. pub fn diagnostics(&self, file_id: FileId) -> Cancelable> { self.with_db(|db| diagnostics::diagnostics(db, file_id)) } /// Returns the edit required to rename reference at the position to the new /// name. pub fn rename( &self, position: FilePosition, new_name: &str, ) -> Cancelable>> { self.with_db(|db| references::rename(db, position, new_name)) } pub fn structural_search_replace( &self, query: &str, parse_only: bool, ) -> Cancelable> { self.with_db(|db| { let edits = ssr::parse_search_replace(query, parse_only, db)?; Ok(SourceChange::from(edits)) }) } /// Performs an operation on that may be Canceled. fn with_db T + std::panic::UnwindSafe, T>( &self, f: F, ) -> Cancelable { self.db.catch_canceled(f) } } #[test] fn analysis_is_send() { fn is_send() {} is_send::(); } #[cfg(test)] mod tests { use crate::{display::NavigationTarget, mock_analysis::single_file, Query}; use ra_syntax::{ SmolStr, SyntaxKind::{FN_DEF, STRUCT_DEF}, }; #[test] fn test_world_symbols_with_no_container() { let code = r#" enum FooInner { } "#; let mut symbols = get_symbols_matching(code, "FooInner"); let s = symbols.pop().unwrap(); assert_eq!(s.name(), "FooInner"); assert!(s.container_name().is_none()); } #[test] fn test_world_symbols_include_container_name() { let code = r#" fn foo() { enum FooInner { } } "#; let mut symbols = get_symbols_matching(code, "FooInner"); let s = symbols.pop().unwrap(); assert_eq!(s.name(), "FooInner"); assert_eq!(s.container_name(), Some(&SmolStr::new("foo"))); let code = r#" mod foo { struct FooInner; } "#; let mut symbols = get_symbols_matching(code, "FooInner"); let s = symbols.pop().unwrap(); assert_eq!(s.name(), "FooInner"); assert_eq!(s.container_name(), Some(&SmolStr::new("foo"))); } #[test] fn test_world_symbols_are_case_sensitive() { let code = r#" fn foo() {} struct Foo; "#; let symbols = get_symbols_matching(code, "Foo"); let fn_match = symbols.iter().find(|s| s.name() == "foo").map(|s| s.kind()); let struct_match = symbols.iter().find(|s| s.name() == "Foo").map(|s| s.kind()); assert_eq!(fn_match, Some(FN_DEF)); assert_eq!(struct_match, Some(STRUCT_DEF)); } fn get_symbols_matching(text: &str, query: &str) -> Vec { let (analysis, _) = single_file(text); analysis.symbol_search(Query::new(query.into())).unwrap() } }