2021-04-08 15:50:13 +00:00
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use std::cmp::Ordering;
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use rustc_hir::{Expr, ExprKind};
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use rustc_lint::{LateContext, LateLintPass};
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use rustc_middle::ty::{self, IntTy, UintTy};
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use rustc_session::{declare_lint_pass, declare_tool_lint};
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use rustc_span::Span;
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use rustc_target::abi::LayoutOf;
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use clippy_utils::comparisons::Rel;
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2021-06-03 06:41:37 +00:00
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use clippy_utils::consts::{constant, Constant};
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2021-04-08 15:50:13 +00:00
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use clippy_utils::diagnostics::span_lint;
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use clippy_utils::source::snippet;
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use clippy_utils::{comparisons, sext};
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declare_clippy_lint! {
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2021-07-29 10:16:06 +00:00
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/// ### What it does
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/// Checks for comparisons where the relation is always either
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2021-04-08 15:50:13 +00:00
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/// true or false, but where one side has been upcast so that the comparison is
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/// necessary. Only integer types are checked.
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///
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2021-07-29 10:16:06 +00:00
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/// ### Why is this bad?
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/// An expression like `let x : u8 = ...; (x as u32) > 300`
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2021-04-08 15:50:13 +00:00
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/// will mistakenly imply that it is possible for `x` to be outside the range of
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/// `u8`.
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///
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2021-07-29 10:16:06 +00:00
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/// ### Known problems
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2021-04-08 15:50:13 +00:00
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/// https://github.com/rust-lang/rust-clippy/issues/886
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///
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2021-07-29 10:16:06 +00:00
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/// ### Example
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2021-04-08 15:50:13 +00:00
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/// ```rust
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/// let x: u8 = 1;
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/// (x as u32) > 300;
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/// ```
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pub INVALID_UPCAST_COMPARISONS,
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pedantic,
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"a comparison involving an upcast which is always true or false"
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}
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declare_lint_pass!(InvalidUpcastComparisons => [INVALID_UPCAST_COMPARISONS]);
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#[derive(Copy, Clone, Debug, Eq)]
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enum FullInt {
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S(i128),
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U(u128),
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}
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impl FullInt {
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#[allow(clippy::cast_sign_loss)]
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#[must_use]
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fn cmp_s_u(s: i128, u: u128) -> Ordering {
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if s < 0 {
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Ordering::Less
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} else if u > (i128::MAX as u128) {
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Ordering::Greater
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} else {
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(s as u128).cmp(&u)
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}
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}
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}
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impl PartialEq for FullInt {
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#[must_use]
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fn eq(&self, other: &Self) -> bool {
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self.partial_cmp(other).expect("`partial_cmp` only returns `Some(_)`") == Ordering::Equal
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}
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}
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impl PartialOrd for FullInt {
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#[must_use]
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fn partial_cmp(&self, other: &Self) -> Option<Ordering> {
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Some(match (self, other) {
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(&Self::S(s), &Self::S(o)) => s.cmp(&o),
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(&Self::U(s), &Self::U(o)) => s.cmp(&o),
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(&Self::S(s), &Self::U(o)) => Self::cmp_s_u(s, o),
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(&Self::U(s), &Self::S(o)) => Self::cmp_s_u(o, s).reverse(),
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})
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}
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}
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impl Ord for FullInt {
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#[must_use]
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fn cmp(&self, other: &Self) -> Ordering {
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self.partial_cmp(other)
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.expect("`partial_cmp` for FullInt can never return `None`")
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}
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}
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fn numeric_cast_precast_bounds<'a>(cx: &LateContext<'_>, expr: &'a Expr<'_>) -> Option<(FullInt, FullInt)> {
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if let ExprKind::Cast(cast_exp, _) = expr.kind {
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let pre_cast_ty = cx.typeck_results().expr_ty(cast_exp);
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let cast_ty = cx.typeck_results().expr_ty(expr);
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// if it's a cast from i32 to u32 wrapping will invalidate all these checks
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if cx.layout_of(pre_cast_ty).ok().map(|l| l.size) == cx.layout_of(cast_ty).ok().map(|l| l.size) {
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return None;
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}
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match pre_cast_ty.kind() {
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ty::Int(int_ty) => Some(match int_ty {
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IntTy::I8 => (FullInt::S(i128::from(i8::MIN)), FullInt::S(i128::from(i8::MAX))),
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IntTy::I16 => (FullInt::S(i128::from(i16::MIN)), FullInt::S(i128::from(i16::MAX))),
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IntTy::I32 => (FullInt::S(i128::from(i32::MIN)), FullInt::S(i128::from(i32::MAX))),
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IntTy::I64 => (FullInt::S(i128::from(i64::MIN)), FullInt::S(i128::from(i64::MAX))),
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IntTy::I128 => (FullInt::S(i128::MIN), FullInt::S(i128::MAX)),
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IntTy::Isize => (FullInt::S(isize::MIN as i128), FullInt::S(isize::MAX as i128)),
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}),
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ty::Uint(uint_ty) => Some(match uint_ty {
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UintTy::U8 => (FullInt::U(u128::from(u8::MIN)), FullInt::U(u128::from(u8::MAX))),
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UintTy::U16 => (FullInt::U(u128::from(u16::MIN)), FullInt::U(u128::from(u16::MAX))),
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UintTy::U32 => (FullInt::U(u128::from(u32::MIN)), FullInt::U(u128::from(u32::MAX))),
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UintTy::U64 => (FullInt::U(u128::from(u64::MIN)), FullInt::U(u128::from(u64::MAX))),
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UintTy::U128 => (FullInt::U(u128::MIN), FullInt::U(u128::MAX)),
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UintTy::Usize => (FullInt::U(usize::MIN as u128), FullInt::U(usize::MAX as u128)),
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}),
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_ => None,
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}
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} else {
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None
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}
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}
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fn node_as_const_fullint<'tcx>(cx: &LateContext<'tcx>, expr: &'tcx Expr<'_>) -> Option<FullInt> {
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let val = constant(cx, cx.typeck_results(), expr)?.0;
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if let Constant::Int(const_int) = val {
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match *cx.typeck_results().expr_ty(expr).kind() {
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ty::Int(ity) => Some(FullInt::S(sext(cx.tcx, const_int, ity))),
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ty::Uint(_) => Some(FullInt::U(const_int)),
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_ => None,
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}
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} else {
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None
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}
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}
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fn err_upcast_comparison(cx: &LateContext<'_>, span: Span, expr: &Expr<'_>, always: bool) {
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if let ExprKind::Cast(cast_val, _) = expr.kind {
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span_lint(
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cx,
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INVALID_UPCAST_COMPARISONS,
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span,
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&format!(
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"because of the numeric bounds on `{}` prior to casting, this expression is always {}",
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snippet(cx, cast_val.span, "the expression"),
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if always { "true" } else { "false" },
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),
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);
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}
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}
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fn upcast_comparison_bounds_err<'tcx>(
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cx: &LateContext<'tcx>,
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span: Span,
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rel: comparisons::Rel,
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lhs_bounds: Option<(FullInt, FullInt)>,
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lhs: &'tcx Expr<'_>,
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rhs: &'tcx Expr<'_>,
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invert: bool,
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) {
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if let Some((lb, ub)) = lhs_bounds {
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if let Some(norm_rhs_val) = node_as_const_fullint(cx, rhs) {
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if rel == Rel::Eq || rel == Rel::Ne {
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if norm_rhs_val < lb || norm_rhs_val > ub {
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err_upcast_comparison(cx, span, lhs, rel == Rel::Ne);
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}
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} else if match rel {
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Rel::Lt => {
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if invert {
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norm_rhs_val < lb
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} else {
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ub < norm_rhs_val
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}
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},
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Rel::Le => {
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if invert {
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norm_rhs_val <= lb
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} else {
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ub <= norm_rhs_val
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}
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},
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Rel::Eq | Rel::Ne => unreachable!(),
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} {
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2021-06-03 06:41:37 +00:00
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err_upcast_comparison(cx, span, lhs, true);
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2021-04-08 15:50:13 +00:00
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} else if match rel {
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Rel::Lt => {
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if invert {
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norm_rhs_val >= ub
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} else {
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lb >= norm_rhs_val
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}
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},
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Rel::Le => {
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if invert {
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norm_rhs_val > ub
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} else {
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lb > norm_rhs_val
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}
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},
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Rel::Eq | Rel::Ne => unreachable!(),
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} {
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err_upcast_comparison(cx, span, lhs, false);
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2021-04-08 15:50:13 +00:00
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}
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}
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}
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}
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impl<'tcx> LateLintPass<'tcx> for InvalidUpcastComparisons {
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fn check_expr(&mut self, cx: &LateContext<'tcx>, expr: &'tcx Expr<'_>) {
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if let ExprKind::Binary(ref cmp, lhs, rhs) = expr.kind {
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let normalized = comparisons::normalize_comparison(cmp.node, lhs, rhs);
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let (rel, normalized_lhs, normalized_rhs) = if let Some(val) = normalized {
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val
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} else {
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return;
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};
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let lhs_bounds = numeric_cast_precast_bounds(cx, normalized_lhs);
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let rhs_bounds = numeric_cast_precast_bounds(cx, normalized_rhs);
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upcast_comparison_bounds_err(cx, expr.span, rel, lhs_bounds, normalized_lhs, normalized_rhs, false);
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upcast_comparison_bounds_err(cx, expr.span, rel, rhs_bounds, normalized_rhs, normalized_lhs, true);
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}
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}
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}
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