//! `completions` crate provides utilities for generating completions of user input. #![warn(rust_2018_idioms, unused_lifetimes, semicolon_in_expressions_from_macros)] mod completions; mod config; mod context; mod item; mod render; #[cfg(test)] mod tests; mod snippet; use ide_db::{ base_db::FilePosition, helpers::mod_path_to_ast, imports::{ import_assets::NameToImport, insert_use::{self, ImportScope}, }, items_locator, RootDatabase, }; use syntax::algo; use text_edit::TextEdit; use crate::{ completions::Completions, context::{ CompletionAnalysis, CompletionContext, NameRefContext, NameRefKind, PathCompletionCtx, PathKind, }, }; pub use crate::{ config::{CallableSnippets, CompletionConfig}, item::{ CompletionItem, CompletionItemKind, CompletionRelevance, CompletionRelevancePostfixMatch, }, snippet::{Snippet, SnippetScope}, }; //FIXME: split the following feature into fine-grained features. // Feature: Magic Completions // // In addition to usual reference completion, rust-analyzer provides some ✨magic✨ // completions as well: // // Keywords like `if`, `else` `while`, `loop` are completed with braces, and cursor // is placed at the appropriate position. Even though `if` is easy to type, you // still want to complete it, to get ` { }` for free! `return` is inserted with a // space or `;` depending on the return type of the function. // // When completing a function call, `()` are automatically inserted. If a function // takes arguments, the cursor is positioned inside the parenthesis. // // There are postfix completions, which can be triggered by typing something like // `foo().if`. The word after `.` determines postfix completion. Possible variants are: // // - `expr.if` -> `if expr {}` or `if let ... {}` for `Option` or `Result` // - `expr.match` -> `match expr {}` // - `expr.while` -> `while expr {}` or `while let ... {}` for `Option` or `Result` // - `expr.ref` -> `&expr` // - `expr.refm` -> `&mut expr` // - `expr.let` -> `let $0 = expr;` // - `expr.letm` -> `let mut $0 = expr;` // - `expr.not` -> `!expr` // - `expr.dbg` -> `dbg!(expr)` // - `expr.dbgr` -> `dbg!(&expr)` // - `expr.call` -> `(expr)` // // There also snippet completions: // // .Expressions // - `pd` -> `eprintln!(" = {:?}", );` // - `ppd` -> `eprintln!(" = {:#?}", );` // // .Items // - `tfn` -> `#[test] fn feature(){}` // - `tmod` -> // ```rust // #[cfg(test)] // mod tests { // use super::*; // // #[test] // fn test_name() {} // } // ``` // // And the auto import completions, enabled with the `rust-analyzer.completion.autoimport.enable` setting and the corresponding LSP client capabilities. // Those are the additional completion options with automatic `use` import and options from all project importable items, // fuzzy matched against the completion input. // // image::https://user-images.githubusercontent.com/48062697/113020667-b72ab880-917a-11eb-8778-716cf26a0eb3.gif[] /// Main entry point for completion. We run completion as a two-phase process. /// /// First, we look at the position and collect a so-called `CompletionContext. /// This is a somewhat messy process, because, during completion, syntax tree is /// incomplete and can look really weird. /// /// Once the context is collected, we run a series of completion routines which /// look at the context and produce completion items. One subtlety about this /// phase is that completion engine should not filter by the substring which is /// already present, it should give all possible variants for the identifier at /// the caret. In other words, for /// /// ```no_run /// fn f() { /// let foo = 92; /// let _ = bar$0 /// } /// ``` /// /// `foo` *should* be present among the completion variants. Filtering by /// identifier prefix/fuzzy match should be done higher in the stack, together /// with ordering of completions (currently this is done by the client). /// /// # Speculative Completion Problem /// /// There's a curious unsolved problem in the current implementation. Often, you /// want to compute completions on a *slightly different* text document. /// /// In the simplest case, when the code looks like `let x = `, you want to /// insert a fake identifier to get a better syntax tree: `let x = complete_me`. /// /// We do this in `CompletionContext`, and it works OK-enough for *syntax* /// analysis. However, we might want to, eg, ask for the type of `complete_me` /// variable, and that's where our current infrastructure breaks down. salsa /// doesn't allow such "phantom" inputs. /// /// Another case where this would be instrumental is macro expansion. We want to /// insert a fake ident and re-expand code. There's `expand_speculative` as a /// work-around for this. /// /// A different use-case is completion of injection (examples and links in doc /// comments). When computing completion for a path in a doc-comment, you want /// to inject a fake path expression into the item being documented and complete /// that. /// /// IntelliJ has CodeFragment/Context infrastructure for that. You can create a /// temporary PSI node, and say that the context ("parent") of this node is some /// existing node. Asking for, eg, type of this `CodeFragment` node works /// correctly, as the underlying infrastructure makes use of contexts to do /// analysis. pub fn completions( db: &RootDatabase, config: &CompletionConfig, position: FilePosition, trigger_character: Option, ) -> Option> { let (ctx, analysis) = &CompletionContext::new(db, position, config)?; let mut completions = Completions::default(); // prevent `(` from triggering unwanted completion noise if trigger_character == Some('(') { if let CompletionAnalysis::NameRef(NameRefContext { kind, .. }) = &analysis { if let NameRefKind::Path( path_ctx @ PathCompletionCtx { kind: PathKind::Vis { has_in_token }, .. }, ) = kind { completions::vis::complete_vis_path(&mut completions, ctx, path_ctx, has_in_token); } } // prevent `(` from triggering unwanted completion noise return Some(completions.into()); } { let acc = &mut completions; match &analysis { CompletionAnalysis::Name(name_ctx) => completions::complete_name(acc, ctx, name_ctx), CompletionAnalysis::NameRef(name_ref_ctx) => { completions::complete_name_ref(acc, ctx, name_ref_ctx) } CompletionAnalysis::Lifetime(lifetime_ctx) => { completions::lifetime::complete_label(acc, ctx, lifetime_ctx); completions::lifetime::complete_lifetime(acc, ctx, lifetime_ctx); } CompletionAnalysis::String { original, expanded: Some(expanded) } => { completions::extern_abi::complete_extern_abi(acc, ctx, expanded); completions::format_string::format_string(acc, ctx, original, expanded); completions::env_vars::complete_cargo_env_vars(acc, expanded); } CompletionAnalysis::UnexpandedAttrTT { colon_prefix, fake_attribute_under_caret: Some(attr), } => { completions::attribute::complete_known_attribute_input( acc, ctx, colon_prefix, attr, ); } CompletionAnalysis::UnexpandedAttrTT { .. } | CompletionAnalysis::String { .. } => (), } } Some(completions.into()) } /// Resolves additional completion data at the position given. /// This is used for import insertion done via completions like flyimport and custom user snippets. pub fn resolve_completion_edits( db: &RootDatabase, config: &CompletionConfig, FilePosition { file_id, offset }: FilePosition, imports: impl IntoIterator, ) -> Option> { let _p = profile::span("resolve_completion_edits"); let sema = hir::Semantics::new(db); let original_file = sema.parse(file_id); let original_token = syntax::AstNode::syntax(&original_file).token_at_offset(offset).left_biased()?; let position_for_import = &original_token.parent()?; let scope = ImportScope::find_insert_use_container(position_for_import, &sema)?; let current_module = sema.scope(position_for_import)?.module(); let current_crate = current_module.krate(); let new_ast = scope.clone_for_update(); let mut import_insert = TextEdit::builder(); imports.into_iter().for_each(|(full_import_path, imported_name)| { let items_with_name = items_locator::items_with_name( &sema, current_crate, NameToImport::exact_case_sensitive(imported_name), items_locator::AssocItemSearch::Include, Some(items_locator::DEFAULT_QUERY_SEARCH_LIMIT.inner()), ); let import = items_with_name .filter_map(|candidate| { current_module.find_use_path_prefixed( db, candidate, config.insert_use.prefix_kind, config.prefer_no_std, ) }) .find(|mod_path| mod_path.to_string() == full_import_path); if let Some(import_path) = import { insert_use::insert_use(&new_ast, mod_path_to_ast(&import_path), &config.insert_use); } }); algo::diff(scope.as_syntax_node(), new_ast.as_syntax_node()).into_text_edit(&mut import_insert); Some(vec![import_insert.finish()]) }