//! Assorted functions shared by several assists. use ra_syntax::{ ast::{self, make, NameOwner}, AstNode, T, }; use hir::db::HirDatabase; use rustc_hash::FxHashSet; pub fn get_missing_impl_items( db: &impl HirDatabase, analyzer: &hir::SourceAnalyzer, impl_block: &ast::ImplBlock, ) -> Vec { // Names must be unique between constants and functions. However, type aliases // may share the same name as a function or constant. let mut impl_fns_consts = FxHashSet::default(); let mut impl_type = FxHashSet::default(); if let Some(item_list) = impl_block.item_list() { for item in item_list.impl_items() { match item { ast::ImplItem::FnDef(f) => { if let Some(n) = f.name() { impl_fns_consts.insert(n.syntax().to_string()); } } ast::ImplItem::TypeAliasDef(t) => { if let Some(n) = t.name() { impl_type.insert(n.syntax().to_string()); } } ast::ImplItem::ConstDef(c) => { if let Some(n) = c.name() { impl_fns_consts.insert(n.syntax().to_string()); } } } } } resolve_target_trait(db, analyzer, impl_block).map_or(vec![], |target_trait| { target_trait .items(db) .iter() .filter(|i| match i { hir::AssocItem::Function(f) => !impl_fns_consts.contains(&f.name(db).to_string()), hir::AssocItem::TypeAlias(t) => !impl_type.contains(&t.name(db).to_string()), hir::AssocItem::Const(c) => c .name(db) .map(|n| !impl_fns_consts.contains(&n.to_string())) .unwrap_or_default(), }) .map(|i| i.clone()) .collect() }) } pub(crate) fn resolve_target_trait( db: &impl HirDatabase, analyzer: &hir::SourceAnalyzer, impl_block: &ast::ImplBlock, ) -> Option { let ast_path = impl_block .target_trait() .map(|it| it.syntax().clone()) .and_then(ast::PathType::cast)? .path()?; match analyzer.resolve_path(db, &ast_path) { Some(hir::PathResolution::Def(hir::ModuleDef::Trait(def))) => Some(def), _ => None, } } pub(crate) fn invert_boolean_expression(expr: ast::Expr) -> ast::Expr { if let Some(expr) = invert_special_case(&expr) { return expr; } make::expr_prefix(T![!], expr) } fn invert_special_case(expr: &ast::Expr) -> Option { match expr { ast::Expr::BinExpr(bin) => match bin.op_kind()? { ast::BinOp::NegatedEqualityTest => bin.replace_op(T![==]).map(|it| it.into()), ast::BinOp::EqualityTest => bin.replace_op(T![!=]).map(|it| it.into()), _ => None, }, ast::Expr::PrefixExpr(pe) if pe.op_kind()? == ast::PrefixOp::Not => pe.expr(), // FIXME: // ast::Expr::Literal(true | false ) _ => None, } }