use crate::utils::{ has_drop, in_macro_or_desugar, is_copy, match_def_path, match_type, paths, snippet_opt, span_lint_hir, span_lint_hir_and_then, walk_ptrs_ty_depth, }; use if_chain::if_chain; use matches::matches; use rustc::hir::intravisit::FnKind; use rustc::hir::{def_id, Body, FnDecl, HirId}; use rustc::lint::{LateContext, LateLintPass, LintArray, LintPass}; use rustc::mir::{ self, traversal, visit::{MutatingUseContext, PlaceContext, Visitor}, TerminatorKind, }; use rustc::ty::{self, Ty}; use rustc::{declare_lint_pass, declare_tool_lint}; use rustc_errors::Applicability; use std::convert::TryFrom; use syntax::source_map::{BytePos, Span}; macro_rules! unwrap_or_continue { ($x:expr) => { match $x { Some(x) => x, None => continue, } }; } declare_clippy_lint! { /// **What it does:** Checks for a redudant `clone()` (and its relatives) which clones an owned /// value that is going to be dropped without further use. /// /// **Why is this bad?** It is not always possible for the compiler to eliminate useless /// allocations and deallocations generated by redundant `clone()`s. /// /// **Known problems:** /// /// * Suggestions made by this lint could require NLL to be enabled. /// * False-positive if there is a borrow preventing the value from moving out. /// /// ```rust /// # fn foo(x: String) {} /// let x = String::new(); /// /// let y = &x; /// /// foo(x.clone()); // This lint suggests to remove this `clone()` /// ``` /// /// **Example:** /// ```rust /// # use std::path::Path; /// # #[derive(Clone)] /// # struct Foo; /// # impl Foo { /// # fn new() -> Self { Foo {} } /// # } /// # fn call(x: Foo) {} /// { /// let x = Foo::new(); /// call(x.clone()); /// call(x.clone()); // this can just pass `x` /// } /// /// ["lorem", "ipsum"].join(" ").to_string(); /// /// Path::new("/a/b").join("c").to_path_buf(); /// ``` pub REDUNDANT_CLONE, nursery, "`clone()` of an owned value that is going to be dropped immediately" } declare_lint_pass!(RedundantClone => [REDUNDANT_CLONE]); impl<'a, 'tcx> LateLintPass<'a, 'tcx> for RedundantClone { #[allow(clippy::too_many_lines)] fn check_fn( &mut self, cx: &LateContext<'a, 'tcx>, _: FnKind<'tcx>, _: &'tcx FnDecl, body: &'tcx Body, _: Span, _: HirId, ) { let def_id = cx.tcx.hir().body_owner_def_id(body.id()); let mir = cx.tcx.optimized_mir(def_id); for (bb, bbdata) in mir.basic_blocks().iter_enumerated() { let terminator = bbdata.terminator(); if in_macro_or_desugar(terminator.source_info.span) { continue; } // Give up on loops if terminator.successors().any(|s| *s == bb) { continue; } let (fn_def_id, arg, arg_ty, _) = unwrap_or_continue!(is_call_with_ref_arg(cx, mir, &terminator.kind)); let from_borrow = match_def_path(cx, fn_def_id, &paths::CLONE_TRAIT_METHOD) || match_def_path(cx, fn_def_id, &paths::TO_OWNED_METHOD) || (match_def_path(cx, fn_def_id, &paths::TO_STRING_METHOD) && match_type(cx, arg_ty, &paths::STRING)); let from_deref = !from_borrow && (match_def_path(cx, fn_def_id, &paths::PATH_TO_PATH_BUF) || match_def_path(cx, fn_def_id, &paths::OS_STR_TO_OS_STRING)); if !from_borrow && !from_deref { continue; } // _1 in MIR `{ _2 = &_1; clone(move _2); }` or `{ _2 = _1; to_path_buf(_2); } (from_deref) // In case of `from_deref`, `arg` is already a reference since it is `deref`ed in the previous // block. let (cloned, cannot_move_out) = unwrap_or_continue!(find_stmt_assigns_to( cx, mir, arg, from_borrow, bbdata.statements.iter() )); if from_borrow && cannot_move_out { continue; } // _1 in MIR `{ _2 = &_1; _3 = deref(move _2); } -> { _4 = _3; to_path_buf(move _4); }` let referent = if from_deref { let ps = mir.predecessors_for(bb); if ps.len() != 1 { continue; } let pred_terminator = mir[ps[0]].terminator(); let pred_arg = if_chain! { if let Some((pred_fn_def_id, pred_arg, pred_arg_ty, Some(res))) = is_call_with_ref_arg(cx, mir, &pred_terminator.kind); if res.base == mir::PlaceBase::Local(cloned); if match_def_path(cx, pred_fn_def_id, &paths::DEREF_TRAIT_METHOD); if match_type(cx, pred_arg_ty, &paths::PATH_BUF) || match_type(cx, pred_arg_ty, &paths::OS_STRING); then { pred_arg } else { continue; } }; let (local, cannot_move_out) = unwrap_or_continue!(find_stmt_assigns_to( cx, mir, pred_arg, true, mir[ps[0]].statements.iter() )); if cannot_move_out { continue; } local } else { cloned }; let used_later = traversal::ReversePostorder::new(&mir, bb).skip(1).any(|(tbb, tdata)| { // Give up on loops if tdata.terminator().successors().any(|s| *s == bb) { return true; } let mut vis = LocalUseVisitor { local: referent, used_other_than_drop: false, }; vis.visit_basic_block_data(tbb, tdata); vis.used_other_than_drop }); if !used_later { let span = terminator.source_info.span; let node = if let mir::ClearCrossCrate::Set(scope_local_data) = &mir.source_scope_local_data { scope_local_data[terminator.source_info.scope].lint_root } else { unreachable!() }; if_chain! { if let Some(snip) = snippet_opt(cx, span); if let Some(dot) = snip.rfind('.'); then { let sugg_span = span.with_lo( span.lo() + BytePos(u32::try_from(dot).unwrap()) ); span_lint_hir_and_then(cx, REDUNDANT_CLONE, node, sugg_span, "redundant clone", |db| { db.span_suggestion( sugg_span, "remove this", String::new(), Applicability::MaybeIncorrect, ); db.span_note( span.with_hi(span.lo() + BytePos(u32::try_from(dot).unwrap())), "this value is dropped without further use", ); }); } else { span_lint_hir(cx, REDUNDANT_CLONE, node, span, "redundant clone"); } } } } } } /// If `kind` is `y = func(x: &T)` where `T: !Copy`, returns `(DefId of func, x, T, y)`. fn is_call_with_ref_arg<'tcx>( cx: &LateContext<'_, 'tcx>, mir: &'tcx mir::Body<'tcx>, kind: &'tcx mir::TerminatorKind<'tcx>, ) -> Option<(def_id::DefId, mir::Local, Ty<'tcx>, Option<&'tcx mir::Place<'tcx>>)> { if_chain! { if let TerminatorKind::Call { func, args, destination, .. } = kind; if args.len() == 1; if let mir::Operand::Move(mir::Place { base: mir::PlaceBase::Local(local), .. }) = &args[0]; if let ty::FnDef(def_id, _) = func.ty(&*mir, cx.tcx).sty; if let (inner_ty, 1) = walk_ptrs_ty_depth(args[0].ty(&*mir, cx.tcx)); if !is_copy(cx, inner_ty); then { Some((def_id, *local, inner_ty, destination.as_ref().map(|(dest, _)| dest))) } else { None } } } type CannotMoveOut = bool; /// Finds the first `to = (&)from`, and returns /// ``Some((from, [`true` if `from` cannot be moved out]))``. fn find_stmt_assigns_to<'a, 'tcx: 'a>( cx: &LateContext<'_, 'tcx>, mir: &mir::Body<'tcx>, to: mir::Local, by_ref: bool, stmts: impl DoubleEndedIterator>, ) -> Option<(mir::Local, CannotMoveOut)> { stmts .rev() .find_map(|stmt| { if let mir::StatementKind::Assign( mir::Place { base: mir::PlaceBase::Local(local), .. }, v, ) = &stmt.kind { if *local == to { return Some(v); } } None }) .and_then(|v| { if by_ref { if let mir::Rvalue::Ref(_, _, ref place) = **v { return base_local_and_movability(cx, mir, place); } } else if let mir::Rvalue::Use(mir::Operand::Copy(ref place)) = **v { return base_local_and_movability(cx, mir, place); } None }) } /// Extracts and returns the undermost base `Local` of given `place`. Returns `place` itself /// if it is already a `Local`. /// /// Also reports whether given `place` cannot be moved out. fn base_local_and_movability<'tcx>( cx: &LateContext<'_, 'tcx>, mir: &mir::Body<'tcx>, place: &mir::Place<'tcx>, ) -> Option<(mir::Local, CannotMoveOut)> { use rustc::mir::Place; use rustc::mir::PlaceBase; use rustc::mir::PlaceRef; use rustc::mir::Projection; // Dereference. You cannot move things out from a borrowed value. let mut deref = false; // Accessing a field of an ADT that has `Drop`. Moving the field out will cause E0509. let mut field = false; let PlaceRef { base: place_base, mut projection, } = place.as_ref(); if let PlaceBase::Local(local) = place_base { while let Some(box Projection { base, elem }) = projection { projection = base; deref = matches!(elem, mir::ProjectionElem::Deref); field = !field && matches!(elem, mir::ProjectionElem::Field(..)) && has_drop(cx, Place::ty_from(place_base, projection, &mir.local_decls, cx.tcx).ty); } Some((*local, deref || field)) } else { None } } struct LocalUseVisitor { local: mir::Local, used_other_than_drop: bool, } impl<'tcx> mir::visit::Visitor<'tcx> for LocalUseVisitor { fn visit_basic_block_data(&mut self, block: mir::BasicBlock, data: &mir::BasicBlockData<'tcx>) { let statements = &data.statements; for (statement_index, statement) in statements.iter().enumerate() { self.visit_statement(statement, mir::Location { block, statement_index }); // Once flagged, skip remaining statements if self.used_other_than_drop { return; } } self.visit_terminator( data.terminator(), mir::Location { block, statement_index: statements.len(), }, ); } fn visit_local(&mut self, local: &mir::Local, ctx: PlaceContext, _: mir::Location) { match ctx { PlaceContext::MutatingUse(MutatingUseContext::Drop) | PlaceContext::NonUse(_) => return, _ => {}, } if *local == self.local { self.used_other_than_drop = true; } } }