// Copyright 2015 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. use rustc::hir::pat_util; use rustc::ty; use rustc::ty::adjustment; use util::nodemap::FnvHashMap; use lint::{LateContext, EarlyContext, LintContext, LintArray}; use lint::{LintPass, EarlyLintPass, LateLintPass}; use std::collections::hash_map::Entry::{Occupied, Vacant}; use syntax::ast; use syntax::attr::{self, AttrMetaMethods}; use syntax::feature_gate::{KNOWN_ATTRIBUTES, AttributeType}; use syntax::parse::token::keywords; use syntax::ptr::P; use syntax_pos::Span; use rustc_back::slice; use rustc::hir; use rustc::hir::intravisit::FnKind; declare_lint! { pub UNUSED_MUT, Warn, "detect mut variables which don't need to be mutable" } #[derive(Copy, Clone)] pub struct UnusedMut; impl UnusedMut { fn check_unused_mut_pat(&self, cx: &LateContext, pats: &[P]) { // collect all mutable pattern and group their NodeIDs by their Identifier to // avoid false warnings in match arms with multiple patterns let mut mutables = FnvHashMap(); for p in pats { pat_util::pat_bindings(p, |mode, id, _, path1| { let name = path1.node; if let hir::BindByValue(hir::MutMutable) = mode { if !name.as_str().starts_with("_") { match mutables.entry(name.0 as usize) { Vacant(entry) => { entry.insert(vec![id]); }, Occupied(mut entry) => { entry.get_mut().push(id); }, } } } }); } let used_mutables = cx.tcx.used_mut_nodes.borrow(); for (_, v) in &mutables { if !v.iter().any(|e| used_mutables.contains(e)) { cx.span_lint(UNUSED_MUT, cx.tcx.map.span(v[0]), "variable does not need to be mutable"); } } } } impl LintPass for UnusedMut { fn get_lints(&self) -> LintArray { lint_array!(UNUSED_MUT) } } impl LateLintPass for UnusedMut { fn check_expr(&mut self, cx: &LateContext, e: &hir::Expr) { if let hir::ExprMatch(_, ref arms, _) = e.node { for a in arms { self.check_unused_mut_pat(cx, &a.pats) } } } fn check_stmt(&mut self, cx: &LateContext, s: &hir::Stmt) { if let hir::StmtDecl(ref d, _) = s.node { if let hir::DeclLocal(ref l) = d.node { self.check_unused_mut_pat(cx, slice::ref_slice(&l.pat)); } } } fn check_fn(&mut self, cx: &LateContext, _: FnKind, decl: &hir::FnDecl, _: &hir::Block, _: Span, _: ast::NodeId) { for a in &decl.inputs { self.check_unused_mut_pat(cx, slice::ref_slice(&a.pat)); } } } declare_lint! { pub UNUSED_MUST_USE, Warn, "unused result of a type flagged as #[must_use]" } declare_lint! { pub UNUSED_RESULTS, Allow, "unused result of an expression in a statement" } #[derive(Copy, Clone)] pub struct UnusedResults; impl LintPass for UnusedResults { fn get_lints(&self) -> LintArray { lint_array!(UNUSED_MUST_USE, UNUSED_RESULTS) } } impl LateLintPass for UnusedResults { fn check_stmt(&mut self, cx: &LateContext, s: &hir::Stmt) { let expr = match s.node { hir::StmtSemi(ref expr, _) => &**expr, _ => return }; if let hir::ExprRet(..) = expr.node { return; } let t = cx.tcx.expr_ty(&expr); let warned = match t.sty { ty::TyTuple(ref tys) if tys.is_empty() => return, ty::TyNever => return, ty::TyBool => return, ty::TyStruct(def, _) | ty::TyEnum(def, _) => { let attrs = cx.tcx.get_attrs(def.did); check_must_use(cx, &attrs[..], s.span) } _ => false, }; if !warned { cx.span_lint(UNUSED_RESULTS, s.span, "unused result"); } fn check_must_use(cx: &LateContext, attrs: &[ast::Attribute], sp: Span) -> bool { for attr in attrs { if attr.check_name("must_use") { let mut msg = "unused result which must be used".to_string(); // check for #[must_use="..."] if let Some(s) = attr.value_str() { msg.push_str(": "); msg.push_str(&s); } cx.span_lint(UNUSED_MUST_USE, sp, &msg); return true; } } false } } } declare_lint! { pub UNUSED_UNSAFE, Warn, "unnecessary use of an `unsafe` block" } #[derive(Copy, Clone)] pub struct UnusedUnsafe; impl LintPass for UnusedUnsafe { fn get_lints(&self) -> LintArray { lint_array!(UNUSED_UNSAFE) } } impl LateLintPass for UnusedUnsafe { fn check_expr(&mut self, cx: &LateContext, e: &hir::Expr) { if let hir::ExprBlock(ref blk) = e.node { // Don't warn about generated blocks, that'll just pollute the output. if blk.rules == hir::UnsafeBlock(hir::UserProvided) && !cx.tcx.used_unsafe.borrow().contains(&blk.id) { cx.span_lint(UNUSED_UNSAFE, blk.span, "unnecessary `unsafe` block"); } } } } declare_lint! { pub PATH_STATEMENTS, Warn, "path statements with no effect" } #[derive(Copy, Clone)] pub struct PathStatements; impl LintPass for PathStatements { fn get_lints(&self) -> LintArray { lint_array!(PATH_STATEMENTS) } } impl LateLintPass for PathStatements { fn check_stmt(&mut self, cx: &LateContext, s: &hir::Stmt) { if let hir::StmtSemi(ref expr, _) = s.node { if let hir::ExprPath(..) = expr.node { cx.span_lint(PATH_STATEMENTS, s.span, "path statement with no effect"); } } } } declare_lint! { pub UNUSED_ATTRIBUTES, Warn, "detects attributes that were not used by the compiler" } #[derive(Copy, Clone)] pub struct UnusedAttributes; impl LintPass for UnusedAttributes { fn get_lints(&self) -> LintArray { lint_array!(UNUSED_ATTRIBUTES) } } impl LateLintPass for UnusedAttributes { fn check_attribute(&mut self, cx: &LateContext, attr: &ast::Attribute) { // Note that check_name() marks the attribute as used if it matches. for &(ref name, ty, _) in KNOWN_ATTRIBUTES { match ty { AttributeType::Whitelisted if attr.check_name(name) => { break; }, _ => () } } let plugin_attributes = cx.sess().plugin_attributes.borrow_mut(); for &(ref name, ty) in plugin_attributes.iter() { if ty == AttributeType::Whitelisted && attr.check_name(&name) { break; } } if !attr::is_used(attr) { cx.span_lint(UNUSED_ATTRIBUTES, attr.span, "unused attribute"); // Is it a builtin attribute that must be used at the crate level? let known_crate = KNOWN_ATTRIBUTES.iter().find(|&&(name, ty, _)| { attr.name() == name && ty == AttributeType::CrateLevel }).is_some(); // Has a plugin registered this attribute as one which must be used at // the crate level? let plugin_crate = plugin_attributes.iter() .find(|&&(ref x, t)| { &*attr.name() == x && AttributeType::CrateLevel == t }).is_some(); if known_crate || plugin_crate { let msg = match attr.node.style { ast::AttrStyle::Outer => "crate-level attribute should be an inner \ attribute: add an exclamation mark: #![foo]", ast::AttrStyle::Inner => "crate-level attribute should be in the \ root module", }; cx.span_lint(UNUSED_ATTRIBUTES, attr.span, msg); } } } } declare_lint! { UNUSED_PARENS, Warn, "`if`, `match`, `while` and `return` do not need parentheses" } #[derive(Copy, Clone)] pub struct UnusedParens; impl UnusedParens { fn check_unused_parens_core(&self, cx: &EarlyContext, value: &ast::Expr, msg: &str, struct_lit_needs_parens: bool) { if let ast::ExprKind::Paren(ref inner) = value.node { let necessary = struct_lit_needs_parens && contains_exterior_struct_lit(&inner); if !necessary { cx.span_lint(UNUSED_PARENS, value.span, &format!("unnecessary parentheses around {}", msg)) } } /// Expressions that syntactically contain an "exterior" struct /// literal i.e. not surrounded by any parens or other /// delimiters, e.g. `X { y: 1 }`, `X { y: 1 }.method()`, `foo /// == X { y: 1 }` and `X { y: 1 } == foo` all do, but `(X { /// y: 1 }) == foo` does not. fn contains_exterior_struct_lit(value: &ast::Expr) -> bool { match value.node { ast::ExprKind::Struct(..) => true, ast::ExprKind::Assign(ref lhs, ref rhs) | ast::ExprKind::AssignOp(_, ref lhs, ref rhs) | ast::ExprKind::Binary(_, ref lhs, ref rhs) => { // X { y: 1 } + X { y: 2 } contains_exterior_struct_lit(&lhs) || contains_exterior_struct_lit(&rhs) } ast::ExprKind::Unary(_, ref x) | ast::ExprKind::Cast(ref x, _) | ast::ExprKind::Type(ref x, _) | ast::ExprKind::Field(ref x, _) | ast::ExprKind::TupField(ref x, _) | ast::ExprKind::Index(ref x, _) => { // &X { y: 1 }, X { y: 1 }.y contains_exterior_struct_lit(&x) } ast::ExprKind::MethodCall(_, _, ref exprs) => { // X { y: 1 }.bar(...) contains_exterior_struct_lit(&exprs[0]) } _ => false } } } } impl LintPass for UnusedParens { fn get_lints(&self) -> LintArray { lint_array!(UNUSED_PARENS) } } impl EarlyLintPass for UnusedParens { fn check_expr(&mut self, cx: &EarlyContext, e: &ast::Expr) { use syntax::ast::ExprKind::*; let (value, msg, struct_lit_needs_parens) = match e.node { If(ref cond, _, _) => (cond, "`if` condition", true), While(ref cond, _, _) => (cond, "`while` condition", true), IfLet(_, ref cond, _, _) => (cond, "`if let` head expression", true), WhileLet(_, ref cond, _, _) => (cond, "`while let` head expression", true), ForLoop(_, ref cond, _, _) => (cond, "`for` head expression", true), Match(ref head, _) => (head, "`match` head expression", true), Ret(Some(ref value)) => (value, "`return` value", false), Assign(_, ref value) => (value, "assigned value", false), AssignOp(_, _, ref value) => (value, "assigned value", false), InPlace(_, ref value) => (value, "emplacement value", false), _ => return }; self.check_unused_parens_core(cx, &value, msg, struct_lit_needs_parens); } fn check_stmt(&mut self, cx: &EarlyContext, s: &ast::Stmt) { let (value, msg) = match s.node { ast::StmtKind::Local(ref local) => match local.init { Some(ref value) => (value, "assigned value"), None => return }, _ => return }; self.check_unused_parens_core(cx, &value, msg, false); } } declare_lint! { UNUSED_IMPORT_BRACES, Allow, "unnecessary braces around an imported item" } #[derive(Copy, Clone)] pub struct UnusedImportBraces; impl LintPass for UnusedImportBraces { fn get_lints(&self) -> LintArray { lint_array!(UNUSED_IMPORT_BRACES) } } impl LateLintPass for UnusedImportBraces { fn check_item(&mut self, cx: &LateContext, item: &hir::Item) { if let hir::ItemUse(ref view_path) = item.node { if let hir::ViewPathList(_, ref items) = view_path.node { if items.len() == 1 && items[0].node.name != keywords::SelfValue.name() { let msg = format!("braces around {} is unnecessary", items[0].node.name); cx.span_lint(UNUSED_IMPORT_BRACES, item.span, &msg); } } } } } declare_lint! { UNUSED_ALLOCATION, Warn, "detects unnecessary allocations that can be eliminated" } #[derive(Copy, Clone)] pub struct UnusedAllocation; impl LintPass for UnusedAllocation { fn get_lints(&self) -> LintArray { lint_array!(UNUSED_ALLOCATION) } } impl LateLintPass for UnusedAllocation { fn check_expr(&mut self, cx: &LateContext, e: &hir::Expr) { match e.node { hir::ExprBox(_) => {} _ => return } if let Some(adjustment) = cx.tcx.tables.borrow().adjustments.get(&e.id) { if let adjustment::AdjustDerefRef(adjustment::AutoDerefRef { ref autoref, .. }) = *adjustment { match autoref { &Some(adjustment::AutoPtr(_, hir::MutImmutable)) => { cx.span_lint(UNUSED_ALLOCATION, e.span, "unnecessary allocation, use & instead"); } &Some(adjustment::AutoPtr(_, hir::MutMutable)) => { cx.span_lint(UNUSED_ALLOCATION, e.span, "unnecessary allocation, use &mut instead"); } _ => () } } } } }