//! Completion for derives use hir::ScopeDef; use ide_db::{SymbolKind, documentation::HasDocs}; use itertools::Itertools; use syntax::{SmolStr, ToSmolStr}; use crate::{ Completions, context::{CompletionContext, ExistingDerives, PathCompletionCtx, Qualified}, item::CompletionItem, }; pub(crate) fn complete_derive_path( acc: &mut Completions, ctx: &CompletionContext<'_>, path_ctx @ PathCompletionCtx { qualified, .. }: &PathCompletionCtx<'_>, existing_derives: &ExistingDerives, ) { let core = ctx.famous_defs().core(); match qualified { Qualified::With { resolution: Some(hir::PathResolution::Def(hir::ModuleDef::Module(module))), super_chain_len, .. } => { acc.add_super_keyword(ctx, *super_chain_len); for (name, def) in module.scope(ctx.db, Some(ctx.module)) { match def { ScopeDef::ModuleDef(hir::ModuleDef::Macro(mac)) if !existing_derives.contains(&mac) && mac.is_derive(ctx.db) => { acc.add_macro(ctx, path_ctx, mac, name) } ScopeDef::ModuleDef(hir::ModuleDef::Module(m)) => { acc.add_module(ctx, path_ctx, m, name, vec![]) } _ => (), } } } Qualified::Absolute => acc.add_crate_roots(ctx, path_ctx), // only show modules in a fresh UseTree Qualified::No => { ctx.process_all_names(&mut |name, def, doc_aliases| { let mac = match def { ScopeDef::ModuleDef(hir::ModuleDef::Macro(mac)) if !existing_derives.contains(&mac) && mac.is_derive(ctx.db) => { mac } ScopeDef::ModuleDef(hir::ModuleDef::Module(m)) => { return acc.add_module(ctx, path_ctx, m, name, doc_aliases); } _ => return, }; match (core, mac.module(ctx.db).krate(ctx.db)) { // show derive dependencies for `core`/`std` derives (Some(core), mac_krate) if core == mac_krate => {} _ => return acc.add_macro(ctx, path_ctx, mac, name), }; let name_ = name.display_no_db(ctx.edition).to_smolstr(); let find = DEFAULT_DERIVE_DEPENDENCIES .iter() .find(|derive_completion| derive_completion.label == name_); match find { Some(derive_completion) => { let mut components = vec![derive_completion.label]; components.extend(derive_completion.dependencies.iter().filter( |&&dependency| { !existing_derives.iter().map(|it| it.name(ctx.db)).any(|it| { it.display_no_db(ctx.edition).to_smolstr() == dependency }) }, )); let lookup = components.join(", "); let label = Itertools::intersperse(components.into_iter().rev(), ", "); let mut item = CompletionItem::new( SymbolKind::Derive, ctx.source_range(), SmolStr::from_iter(label), ctx.edition, ); if let Some(docs) = mac.docs(ctx.db) { item.documentation(docs); } item.lookup_by(lookup); item.add_to(acc, ctx.db); } None => acc.add_macro(ctx, path_ctx, mac, name), } }); acc.add_nameref_keywords_with_colon(ctx); } Qualified::TypeAnchor { .. } | Qualified::With { .. } => {} } } struct DeriveDependencies { label: &'static str, dependencies: &'static [&'static str], } /// Standard Rust derives that have dependencies /// (the dependencies are needed so that the main derive don't break the compilation when added) const DEFAULT_DERIVE_DEPENDENCIES: &[DeriveDependencies] = &[ DeriveDependencies { label: "Copy", dependencies: &["Clone"] }, DeriveDependencies { label: "Eq", dependencies: &["PartialEq"] }, DeriveDependencies { label: "Ord", dependencies: &["PartialOrd", "Eq", "PartialEq"] }, DeriveDependencies { label: "PartialOrd", dependencies: &["PartialEq"] }, ];