use clippy_utils::ast_utils::{eq_id, is_useless_with_eq_exprs, IdentIter}; use clippy_utils::diagnostics::span_lint_and_sugg; use clippy_utils::source::snippet_with_applicability; use core::ops::{Add, AddAssign}; use if_chain::if_chain; use rustc_ast::ast::{BinOpKind, Expr, ExprKind, StmtKind}; use rustc_data_structures::fx::FxHashSet; use rustc_errors::Applicability; use rustc_lint::{EarlyContext, EarlyLintPass}; use rustc_session::{declare_lint_pass, declare_tool_lint}; use rustc_span::source_map::Spanned; use rustc_span::symbol::Ident; use rustc_span::Span; declare_clippy_lint! { /// ### What it does /// Checks for unlikely usages of binary operators that are almost /// certainly typos and/or copy/paste errors, given the other usages /// of binary operators nearby. /// /// ### Why is this bad? /// They are probably bugs and if they aren't then they look like bugs /// and you should add a comment explaining why you are doing such an /// odd set of operations. /// /// ### Known problems /// There may be some false positives if you are trying to do something /// unusual that happens to look like a typo. /// /// ### Example /// ```rust /// struct Vec3 { /// x: f64, /// y: f64, /// z: f64, /// } /// /// impl Eq for Vec3 {} /// /// impl PartialEq for Vec3 { /// fn eq(&self, other: &Self) -> bool { /// // This should trigger the lint because `self.x` is compared to `other.y` /// self.x == other.y && self.y == other.y && self.z == other.z /// } /// } /// ``` /// Use instead: /// ```rust /// # struct Vec3 { /// # x: f64, /// # y: f64, /// # z: f64, /// # } /// // same as above except: /// impl PartialEq for Vec3 { /// fn eq(&self, other: &Self) -> bool { /// // Note we now compare other.x to self.x /// self.x == other.x && self.y == other.y && self.z == other.z /// } /// } /// ``` pub SUSPICIOUS_OPERATION_GROUPINGS, nursery, "groupings of binary operations that look suspiciously like typos" } declare_lint_pass!(SuspiciousOperationGroupings => [SUSPICIOUS_OPERATION_GROUPINGS]); impl EarlyLintPass for SuspiciousOperationGroupings { fn check_expr(&mut self, cx: &EarlyContext<'_>, expr: &Expr) { if expr.span.from_expansion() { return; } if let Some(binops) = extract_related_binops(&expr.kind) { check_binops(cx, &binops.iter().collect::>()); let mut op_types = Vec::with_capacity(binops.len()); // We could use a hashmap, etc. to avoid being O(n*m) here, but // we want the lints to be emitted in a consistent order. Besides, // m, (the number of distinct `BinOpKind`s in `binops`) // will often be small, and does have an upper limit. binops.iter().map(|b| b.op).for_each(|op| { if !op_types.contains(&op) { op_types.push(op); } }); for op_type in op_types { let ops: Vec<_> = binops.iter().filter(|b| b.op == op_type).collect(); check_binops(cx, &ops); } } } } fn check_binops(cx: &EarlyContext<'_>, binops: &[&BinaryOp<'_>]) { let binop_count = binops.len(); if binop_count < 2 { // Single binary operation expressions would likely be false // positives. return; } let mut one_ident_difference_count = 0; let mut no_difference_info = None; let mut double_difference_info = None; let mut expected_ident_loc = None; let mut paired_identifiers = FxHashSet::default(); for (i, BinaryOp { left, right, op, .. }) in binops.iter().enumerate() { match ident_difference_expr(left, right) { IdentDifference::NoDifference => { if is_useless_with_eq_exprs(*op) { // The `eq_op` lint should catch this in this case. return; } no_difference_info = Some(i); }, IdentDifference::Single(ident_loc) => { one_ident_difference_count += 1; if let Some(previous_expected) = expected_ident_loc { if previous_expected != ident_loc { // This expression doesn't match the form we're // looking for. return; } } else { expected_ident_loc = Some(ident_loc); } // If there was only a single difference, all other idents // must have been the same, and thus were paired. for id in skip_index(IdentIter::from(*left), ident_loc.index) { paired_identifiers.insert(id); } }, IdentDifference::Double(ident_loc1, ident_loc2) => { double_difference_info = Some((i, ident_loc1, ident_loc2)); }, IdentDifference::Multiple | IdentDifference::NonIdent => { // It's too hard to know whether this is a bug or not. return; }, } } let mut applicability = Applicability::MachineApplicable; if let Some(expected_loc) = expected_ident_loc { match (no_difference_info, double_difference_info) { (Some(i), None) => attempt_to_emit_no_difference_lint(cx, binops, i, expected_loc), (None, Some((double_difference_index, ident_loc1, ident_loc2))) => { if_chain! { if one_ident_difference_count == binop_count - 1; if let Some(binop) = binops.get(double_difference_index); then { let changed_loc = if ident_loc1 == expected_loc { ident_loc2 } else if ident_loc2 == expected_loc { ident_loc1 } else { // This expression doesn't match the form we're // looking for. return; }; if let Some(sugg) = ident_swap_sugg( cx, &paired_identifiers, binop, changed_loc, &mut applicability, ) { emit_suggestion( cx, binop.span, sugg, applicability, ); } } } }, _ => {}, } } } fn attempt_to_emit_no_difference_lint( cx: &EarlyContext<'_>, binops: &[&BinaryOp<'_>], i: usize, expected_loc: IdentLocation, ) { if let Some(binop) = binops.get(i).copied() { // We need to try and figure out which identifier we should // suggest using instead. Since there could be multiple // replacement candidates in a given expression, and we're // just taking the first one, we may get some bad lint // messages. let mut applicability = Applicability::MaybeIncorrect; // We assume that the correct ident is one used elsewhere in // the other binops, in a place that there was a single // difference between idents before. let old_left_ident = get_ident(binop.left, expected_loc); let old_right_ident = get_ident(binop.right, expected_loc); for b in skip_index(binops.iter(), i) { if_chain! { if let (Some(old_ident), Some(new_ident)) = (old_left_ident, get_ident(b.left, expected_loc)); if old_ident != new_ident; if let Some(sugg) = suggestion_with_swapped_ident( cx, binop.left, expected_loc, new_ident, &mut applicability, ); then { emit_suggestion( cx, binop.span, replace_left_sugg(cx, binop, &sugg, &mut applicability), applicability, ); return; } } if_chain! { if let (Some(old_ident), Some(new_ident)) = (old_right_ident, get_ident(b.right, expected_loc)); if old_ident != new_ident; if let Some(sugg) = suggestion_with_swapped_ident( cx, binop.right, expected_loc, new_ident, &mut applicability, ); then { emit_suggestion( cx, binop.span, replace_right_sugg(cx, binop, &sugg, &mut applicability), applicability, ); return; } } } } } fn emit_suggestion(cx: &EarlyContext<'_>, span: Span, sugg: String, applicability: Applicability) { span_lint_and_sugg( cx, SUSPICIOUS_OPERATION_GROUPINGS, span, "this sequence of operators looks suspiciously like a bug", "did you mean", sugg, applicability, ); } fn ident_swap_sugg( cx: &EarlyContext<'_>, paired_identifiers: &FxHashSet, binop: &BinaryOp<'_>, location: IdentLocation, applicability: &mut Applicability, ) -> Option { let left_ident = get_ident(binop.left, location)?; let right_ident = get_ident(binop.right, location)?; let sugg = match ( paired_identifiers.contains(&left_ident), paired_identifiers.contains(&right_ident), ) { (true, true) | (false, false) => { // We don't have a good guess of what ident should be // used instead, in these cases. *applicability = Applicability::MaybeIncorrect; // We arbitraily choose one side to suggest changing, // since we don't have a better guess. If the user // ends up duplicating a clause, the `logic_bug` lint // should catch it. let right_suggestion = suggestion_with_swapped_ident(cx, binop.right, location, left_ident, applicability)?; replace_right_sugg(cx, binop, &right_suggestion, applicability) }, (false, true) => { // We haven't seen a pair involving the left one, so // it's probably what is wanted. let right_suggestion = suggestion_with_swapped_ident(cx, binop.right, location, left_ident, applicability)?; replace_right_sugg(cx, binop, &right_suggestion, applicability) }, (true, false) => { // We haven't seen a pair involving the right one, so // it's probably what is wanted. let left_suggestion = suggestion_with_swapped_ident(cx, binop.left, location, right_ident, applicability)?; replace_left_sugg(cx, binop, &left_suggestion, applicability) }, }; Some(sugg) } fn replace_left_sugg( cx: &EarlyContext<'_>, binop: &BinaryOp<'_>, left_suggestion: &str, applicability: &mut Applicability, ) -> String { format!( "{} {} {}", left_suggestion, binop.op.to_string(), snippet_with_applicability(cx, binop.right.span, "..", applicability), ) } fn replace_right_sugg( cx: &EarlyContext<'_>, binop: &BinaryOp<'_>, right_suggestion: &str, applicability: &mut Applicability, ) -> String { format!( "{} {} {}", snippet_with_applicability(cx, binop.left.span, "..", applicability), binop.op.to_string(), right_suggestion, ) } #[derive(Clone, Debug)] struct BinaryOp<'exprs> { op: BinOpKind, span: Span, left: &'exprs Expr, right: &'exprs Expr, } impl BinaryOp<'exprs> { fn new(op: BinOpKind, span: Span, (left, right): (&'exprs Expr, &'exprs Expr)) -> Self { Self { op, span, left, right } } } fn strip_non_ident_wrappers(expr: &Expr) -> &Expr { let mut output = expr; loop { output = match &output.kind { ExprKind::Paren(ref inner) | ExprKind::Unary(_, ref inner) => inner, _ => { return output; }, }; } } fn extract_related_binops(kind: &ExprKind) -> Option>> { append_opt_vecs(chained_binops(kind), if_statment_binops(kind)) } fn if_statment_binops(kind: &ExprKind) -> Option>> { match kind { ExprKind::If(ref condition, _, _) => chained_binops(&condition.kind), ExprKind::Paren(ref e) => if_statment_binops(&e.kind), ExprKind::Block(ref block, _) => { let mut output = None; for stmt in &block.stmts { match stmt.kind { StmtKind::Expr(ref e) | StmtKind::Semi(ref e) => { output = append_opt_vecs(output, if_statment_binops(&e.kind)); }, _ => {}, } } output }, _ => None, } } fn append_opt_vecs(target_opt: Option>, source_opt: Option>) -> Option> { match (target_opt, source_opt) { (Some(mut target), Some(mut source)) => { target.reserve(source.len()); for op in source.drain(..) { target.push(op); } Some(target) }, (Some(v), None) | (None, Some(v)) => Some(v), (None, None) => None, } } fn chained_binops(kind: &ExprKind) -> Option>> { match kind { ExprKind::Binary(_, left_outer, right_outer) => chained_binops_helper(left_outer, right_outer), ExprKind::Paren(ref e) | ExprKind::Unary(_, ref e) => chained_binops(&e.kind), _ => None, } } fn chained_binops_helper(left_outer: &'expr Expr, right_outer: &'expr Expr) -> Option>> { match (&left_outer.kind, &right_outer.kind) { ( ExprKind::Paren(ref left_e) | ExprKind::Unary(_, ref left_e), ExprKind::Paren(ref right_e) | ExprKind::Unary(_, ref right_e), ) => chained_binops_helper(left_e, right_e), (ExprKind::Paren(ref left_e) | ExprKind::Unary(_, ref left_e), _) => chained_binops_helper(left_e, right_outer), (_, ExprKind::Paren(ref right_e) | ExprKind::Unary(_, ref right_e)) => { chained_binops_helper(left_outer, right_e) }, ( ExprKind::Binary(Spanned { node: left_op, .. }, ref left_left, ref left_right), ExprKind::Binary(Spanned { node: right_op, .. }, ref right_left, ref right_right), ) => match ( chained_binops_helper(left_left, left_right), chained_binops_helper(right_left, right_right), ) { (Some(mut left_ops), Some(mut right_ops)) => { left_ops.reserve(right_ops.len()); for op in right_ops.drain(..) { left_ops.push(op); } Some(left_ops) }, (Some(mut left_ops), _) => { left_ops.push(BinaryOp::new(*right_op, right_outer.span, (right_left, right_right))); Some(left_ops) }, (_, Some(mut right_ops)) => { right_ops.insert(0, BinaryOp::new(*left_op, left_outer.span, (left_left, left_right))); Some(right_ops) }, (None, None) => Some(vec![ BinaryOp::new(*left_op, left_outer.span, (left_left, left_right)), BinaryOp::new(*right_op, right_outer.span, (right_left, right_right)), ]), }, _ => None, } } #[derive(Clone, Copy, PartialEq, Eq, Default, Debug)] struct IdentLocation { index: usize, } impl Add for IdentLocation { type Output = IdentLocation; fn add(self, other: Self) -> Self::Output { Self { index: self.index + other.index, } } } impl AddAssign for IdentLocation { fn add_assign(&mut self, other: Self) { *self = *self + other; } } #[derive(Clone, Copy, Debug)] enum IdentDifference { NoDifference, Single(IdentLocation), Double(IdentLocation, IdentLocation), Multiple, NonIdent, } impl Add for IdentDifference { type Output = IdentDifference; fn add(self, other: Self) -> Self::Output { match (self, other) { (Self::NoDifference, output) | (output, Self::NoDifference) => output, (Self::Multiple, _) | (_, Self::Multiple) | (Self::Double(_, _), Self::Single(_)) | (Self::Single(_) | Self::Double(_, _), Self::Double(_, _)) => Self::Multiple, (Self::NonIdent, _) | (_, Self::NonIdent) => Self::NonIdent, (Self::Single(il1), Self::Single(il2)) => Self::Double(il1, il2), } } } impl AddAssign for IdentDifference { fn add_assign(&mut self, other: Self) { *self = *self + other; } } impl IdentDifference { /// Returns true if learning about more differences will not change the value /// of this `IdentDifference`, and false otherwise. fn is_complete(&self) -> bool { match self { Self::NoDifference | Self::Single(_) | Self::Double(_, _) => false, Self::Multiple | Self::NonIdent => true, } } } fn ident_difference_expr(left: &Expr, right: &Expr) -> IdentDifference { ident_difference_expr_with_base_location(left, right, IdentLocation::default()).0 } fn ident_difference_expr_with_base_location( left: &Expr, right: &Expr, mut base: IdentLocation, ) -> (IdentDifference, IdentLocation) { // Ideally, this function should not use IdentIter because it should return // early if the expressions have any non-ident differences. We want that early // return because if without that restriction the lint would lead to false // positives. // // But, we cannot (easily?) use a `rustc_ast::visit::Visitor`, since we need // the two expressions to be walked in lockstep. And without a `Visitor`, we'd // have to do all the AST traversal ourselves, which is a lot of work, since to // do it properly we'd need to be able to handle more or less every possible // AST node since `Item`s can be written inside `Expr`s. // // In practice, it seems likely that expressions, above a certain size, that // happen to use the exact same idents in the exact same order, and which are // not structured the same, would be rare. Therefore it seems likely that if // we do only the first layer of matching ourselves and eventually fallback on // IdentIter, then the output of this function will be almost always be correct // in practice. // // If it turns out that problematic cases are more prelavent than we assume, // then we should be able to change this function to do the correct traversal, // without needing to change the rest of the code. #![allow(clippy::enum_glob_use)] use ExprKind::*; match ( &strip_non_ident_wrappers(left).kind, &strip_non_ident_wrappers(right).kind, ) { (Yield(_), Yield(_)) | (Try(_), Try(_)) | (Paren(_), Paren(_)) | (Repeat(_, _), Repeat(_, _)) | (Struct(_), Struct(_)) | (MacCall(_), MacCall(_)) | (LlvmInlineAsm(_), LlvmInlineAsm(_)) | (InlineAsm(_), InlineAsm(_)) | (Ret(_), Ret(_)) | (Continue(_), Continue(_)) | (Break(_, _), Break(_, _)) | (AddrOf(_, _, _), AddrOf(_, _, _)) | (Path(_, _), Path(_, _)) | (Range(_, _, _), Range(_, _, _)) | (Index(_, _), Index(_, _)) | (Field(_, _), Field(_, _)) | (AssignOp(_, _, _), AssignOp(_, _, _)) | (Assign(_, _, _), Assign(_, _, _)) | (TryBlock(_), TryBlock(_)) | (Await(_), Await(_)) | (Async(_, _, _), Async(_, _, _)) | (Block(_, _), Block(_, _)) | (Closure(_, _, _, _, _, _), Closure(_, _, _, _, _, _)) | (Match(_, _), Match(_, _)) | (Loop(_, _), Loop(_, _)) | (ForLoop(_, _, _, _), ForLoop(_, _, _, _)) | (While(_, _, _), While(_, _, _)) | (If(_, _, _), If(_, _, _)) | (Let(_, _, _), Let(_, _, _)) | (Type(_, _), Type(_, _)) | (Cast(_, _), Cast(_, _)) | (Lit(_), Lit(_)) | (Unary(_, _), Unary(_, _)) | (Binary(_, _, _), Binary(_, _, _)) | (Tup(_), Tup(_)) | (MethodCall(_, _, _), MethodCall(_, _, _)) | (Call(_, _), Call(_, _)) | (ConstBlock(_), ConstBlock(_)) | (Array(_), Array(_)) | (Box(_), Box(_)) => { // keep going }, _ => { return (IdentDifference::NonIdent, base); }, } let mut difference = IdentDifference::NoDifference; for (left_attr, right_attr) in left.attrs.iter().zip(right.attrs.iter()) { let (new_difference, new_base) = ident_difference_via_ident_iter_with_base_location(left_attr, right_attr, base); base = new_base; difference += new_difference; if difference.is_complete() { return (difference, base); } } let (new_difference, new_base) = ident_difference_via_ident_iter_with_base_location(left, right, base); base = new_base; difference += new_difference; (difference, base) } fn ident_difference_via_ident_iter_with_base_location>( left: Iterable, right: Iterable, mut base: IdentLocation, ) -> (IdentDifference, IdentLocation) { // See the note in `ident_difference_expr_with_base_location` about `IdentIter` let mut difference = IdentDifference::NoDifference; let mut left_iterator = left.into(); let mut right_iterator = right.into(); loop { match (left_iterator.next(), right_iterator.next()) { (Some(left_ident), Some(right_ident)) => { if !eq_id(left_ident, right_ident) { difference += IdentDifference::Single(base); if difference.is_complete() { return (difference, base); } } }, (Some(_), None) | (None, Some(_)) => { return (IdentDifference::NonIdent, base); }, (None, None) => { return (difference, base); }, } base += IdentLocation { index: 1 }; } } fn get_ident(expr: &Expr, location: IdentLocation) -> Option { IdentIter::from(expr).nth(location.index) } fn suggestion_with_swapped_ident( cx: &EarlyContext<'_>, expr: &Expr, location: IdentLocation, new_ident: Ident, applicability: &mut Applicability, ) -> Option { get_ident(expr, location).and_then(|current_ident| { if eq_id(current_ident, new_ident) { // We never want to suggest a non-change return None; } Some(format!( "{}{}{}", snippet_with_applicability(cx, expr.span.with_hi(current_ident.span.lo()), "..", applicability), new_ident.to_string(), snippet_with_applicability(cx, expr.span.with_lo(current_ident.span.hi()), "..", applicability), )) }) } fn skip_index(iter: Iter, index: usize) -> impl Iterator where Iter: Iterator, { iter.enumerate() .filter_map(move |(i, a)| if i == index { None } else { Some(a) }) }