//! Checks for needless boolean results of if-else expressions //! //! This lint is **warn** by default use clippy_utils::diagnostics::{span_lint, span_lint_and_sugg}; use clippy_utils::higher; use clippy_utils::source::snippet_with_applicability; use clippy_utils::sugg::Sugg; use clippy_utils::{get_parent_node, is_else_clause, is_expn_of, peel_blocks, peel_blocks_with_stmt}; use rustc_ast::ast::LitKind; use rustc_errors::Applicability; use rustc_hir::{BinOpKind, Block, Expr, ExprKind, HirId, Node, UnOp}; use rustc_lint::{LateContext, LateLintPass}; use rustc_session::{declare_lint_pass, declare_tool_lint}; use rustc_span::source_map::Spanned; use rustc_span::Span; declare_clippy_lint! { /// ### What it does /// Checks for expressions of the form `if c { true } else { /// false }` (or vice versa) and suggests using the condition directly. /// /// ### Why is this bad? /// Redundant code. /// /// ### Known problems /// Maybe false positives: Sometimes, the two branches are /// painstakingly documented (which we, of course, do not detect), so they *may* /// have some value. Even then, the documentation can be rewritten to match the /// shorter code. /// /// ### Example /// ```rust,ignore /// if x { /// false /// } else { /// true /// } /// ``` /// Could be written as /// ```rust,ignore /// !x /// ``` #[clippy::version = "pre 1.29.0"] pub NEEDLESS_BOOL, complexity, "if-statements with plain booleans in the then- and else-clause, e.g., `if p { true } else { false }`" } declare_clippy_lint! { /// ### What it does /// Checks for expressions of the form `x == true`, /// `x != true` and order comparisons such as `x < true` (or vice versa) and /// suggest using the variable directly. /// /// ### Why is this bad? /// Unnecessary code. /// /// ### Example /// ```rust,ignore /// if x == true {} /// if y == false {} /// ``` /// use `x` directly: /// ```rust,ignore /// if x {} /// if !y {} /// ``` #[clippy::version = "pre 1.29.0"] pub BOOL_COMPARISON, complexity, "comparing a variable to a boolean, e.g., `if x == true` or `if x != true`" } declare_lint_pass!(NeedlessBool => [NEEDLESS_BOOL]); fn condition_needs_parentheses(e: &Expr<'_>) -> bool { let mut inner = e; while let ExprKind::Binary(_, i, _) | ExprKind::Call(i, _) | ExprKind::Cast(i, _) | ExprKind::Type(i, _) | ExprKind::Index(i, _) = inner.kind { if matches!( i.kind, ExprKind::Block(..) | ExprKind::ConstBlock(..) | ExprKind::If(..) | ExprKind::Loop(..) | ExprKind::Match(..) ) { return true; } inner = i; } false } fn is_parent_stmt(cx: &LateContext<'_>, id: HirId) -> bool { matches!( get_parent_node(cx.tcx, id), Some(Node::Stmt(..) | Node::Block(Block { stmts: &[], .. })) ) } impl<'tcx> LateLintPass<'tcx> for NeedlessBool { fn check_expr(&mut self, cx: &LateContext<'tcx>, e: &'tcx Expr<'_>) { use self::Expression::{Bool, RetBool}; if e.span.from_expansion() { return; } if let Some(higher::If { cond, then, r#else: Some(r#else), }) = higher::If::hir(e) { let reduce = |ret, not| { let mut applicability = Applicability::MachineApplicable; let snip = Sugg::hir_with_applicability(cx, cond, "", &mut applicability); let mut snip = if not { !snip } else { snip }; if ret { snip = snip.make_return(); } if is_else_clause(cx.tcx, e) { snip = snip.blockify(); } if condition_needs_parentheses(cond) && is_parent_stmt(cx, e.hir_id) { snip = snip.maybe_par(); } span_lint_and_sugg( cx, NEEDLESS_BOOL, e.span, "this if-then-else expression returns a bool literal", "you can reduce it to", snip.to_string(), applicability, ); }; if let Some((a, b)) = fetch_bool_block(then).and_then(|a| Some((a, fetch_bool_block(r#else)?))) { match (a, b) { (RetBool(true), RetBool(true)) | (Bool(true), Bool(true)) => { span_lint( cx, NEEDLESS_BOOL, e.span, "this if-then-else expression will always return true", ); }, (RetBool(false), RetBool(false)) | (Bool(false), Bool(false)) => { span_lint( cx, NEEDLESS_BOOL, e.span, "this if-then-else expression will always return false", ); }, (RetBool(true), RetBool(false)) => reduce(true, false), (Bool(true), Bool(false)) => reduce(false, false), (RetBool(false), RetBool(true)) => reduce(true, true), (Bool(false), Bool(true)) => reduce(false, true), _ => (), } } } } } declare_lint_pass!(BoolComparison => [BOOL_COMPARISON]); impl<'tcx> LateLintPass<'tcx> for BoolComparison { fn check_expr(&mut self, cx: &LateContext<'tcx>, e: &'tcx Expr<'_>) { if e.span.from_expansion() { return; } if let ExprKind::Binary(Spanned { node, .. }, ..) = e.kind { let ignore_case = None::<(fn(_) -> _, &str)>; let ignore_no_literal = None::<(fn(_, _) -> _, &str)>; match node { BinOpKind::Eq => { let true_case = Some((|h| h, "equality checks against true are unnecessary")); let false_case = Some(( |h: Sugg<'tcx>| !h, "equality checks against false can be replaced by a negation", )); check_comparison(cx, e, true_case, false_case, true_case, false_case, ignore_no_literal); }, BinOpKind::Ne => { let true_case = Some(( |h: Sugg<'tcx>| !h, "inequality checks against true can be replaced by a negation", )); let false_case = Some((|h| h, "inequality checks against false are unnecessary")); check_comparison(cx, e, true_case, false_case, true_case, false_case, ignore_no_literal); }, BinOpKind::Lt => check_comparison( cx, e, ignore_case, Some((|h| h, "greater than checks against false are unnecessary")), Some(( |h: Sugg<'tcx>| !h, "less than comparison against true can be replaced by a negation", )), ignore_case, Some(( |l: Sugg<'tcx>, r: Sugg<'tcx>| (!l).bit_and(&r), "order comparisons between booleans can be simplified", )), ), BinOpKind::Gt => check_comparison( cx, e, Some(( |h: Sugg<'tcx>| !h, "less than comparison against true can be replaced by a negation", )), ignore_case, ignore_case, Some((|h| h, "greater than checks against false are unnecessary")), Some(( |l: Sugg<'tcx>, r: Sugg<'tcx>| l.bit_and(&(!r)), "order comparisons between booleans can be simplified", )), ), _ => (), } } } } struct ExpressionInfoWithSpan { one_side_is_unary_not: bool, left_span: Span, right_span: Span, } fn is_unary_not(e: &Expr<'_>) -> (bool, Span) { if let ExprKind::Unary(UnOp::Not, operand) = e.kind { return (true, operand.span); } (false, e.span) } fn one_side_is_unary_not<'tcx>(left_side: &'tcx Expr<'_>, right_side: &'tcx Expr<'_>) -> ExpressionInfoWithSpan { let left = is_unary_not(left_side); let right = is_unary_not(right_side); ExpressionInfoWithSpan { one_side_is_unary_not: left.0 != right.0, left_span: left.1, right_span: right.1, } } fn check_comparison<'a, 'tcx>( cx: &LateContext<'tcx>, e: &'tcx Expr<'_>, left_true: Option<(impl FnOnce(Sugg<'a>) -> Sugg<'a>, &str)>, left_false: Option<(impl FnOnce(Sugg<'a>) -> Sugg<'a>, &str)>, right_true: Option<(impl FnOnce(Sugg<'a>) -> Sugg<'a>, &str)>, right_false: Option<(impl FnOnce(Sugg<'a>) -> Sugg<'a>, &str)>, no_literal: Option<(impl FnOnce(Sugg<'a>, Sugg<'a>) -> Sugg<'a>, &str)>, ) { if let ExprKind::Binary(op, left_side, right_side) = e.kind { let (l_ty, r_ty) = ( cx.typeck_results().expr_ty(left_side), cx.typeck_results().expr_ty(right_side), ); if is_expn_of(left_side.span, "cfg").is_some() || is_expn_of(right_side.span, "cfg").is_some() { return; } if l_ty.is_bool() && r_ty.is_bool() { let mut applicability = Applicability::MachineApplicable; if op.node == BinOpKind::Eq { let expression_info = one_side_is_unary_not(left_side, right_side); if expression_info.one_side_is_unary_not { span_lint_and_sugg( cx, BOOL_COMPARISON, e.span, "this comparison might be written more concisely", "try simplifying it as shown", format!( "{} != {}", snippet_with_applicability(cx, expression_info.left_span, "..", &mut applicability), snippet_with_applicability(cx, expression_info.right_span, "..", &mut applicability) ), applicability, ); } } match (fetch_bool_expr(left_side), fetch_bool_expr(right_side)) { (Some(true), None) => left_true.map_or((), |(h, m)| { suggest_bool_comparison(cx, e, right_side, applicability, m, h); }), (None, Some(true)) => right_true.map_or((), |(h, m)| { suggest_bool_comparison(cx, e, left_side, applicability, m, h); }), (Some(false), None) => left_false.map_or((), |(h, m)| { suggest_bool_comparison(cx, e, right_side, applicability, m, h); }), (None, Some(false)) => right_false.map_or((), |(h, m)| { suggest_bool_comparison(cx, e, left_side, applicability, m, h); }), (None, None) => no_literal.map_or((), |(h, m)| { let left_side = Sugg::hir_with_applicability(cx, left_side, "..", &mut applicability); let right_side = Sugg::hir_with_applicability(cx, right_side, "..", &mut applicability); span_lint_and_sugg( cx, BOOL_COMPARISON, e.span, m, "try simplifying it as shown", h(left_side, right_side).to_string(), applicability, ); }), _ => (), } } } } fn suggest_bool_comparison<'a, 'tcx>( cx: &LateContext<'tcx>, e: &'tcx Expr<'_>, expr: &Expr<'_>, mut applicability: Applicability, message: &str, conv_hint: impl FnOnce(Sugg<'a>) -> Sugg<'a>, ) { let hint = if expr.span.from_expansion() { if applicability != Applicability::Unspecified { applicability = Applicability::MaybeIncorrect; } Sugg::hir_with_macro_callsite(cx, expr, "..") } else { Sugg::hir_with_applicability(cx, expr, "..", &mut applicability) }; span_lint_and_sugg( cx, BOOL_COMPARISON, e.span, message, "try simplifying it as shown", conv_hint(hint).to_string(), applicability, ); } enum Expression { Bool(bool), RetBool(bool), } fn fetch_bool_block(expr: &Expr<'_>) -> Option { match peel_blocks_with_stmt(expr).kind { ExprKind::Ret(Some(ret)) => Some(Expression::RetBool(fetch_bool_expr(ret)?)), _ => Some(Expression::Bool(fetch_bool_expr(expr)?)), } } fn fetch_bool_expr(expr: &Expr<'_>) -> Option { if let ExprKind::Lit(ref lit_ptr) = peel_blocks(expr).kind { if let LitKind::Bool(value) = lit_ptr.node { return Some(value); } } None }