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https://github.com/rust-lang/rust-clippy
synced 2024-11-24 05:33:27 +00:00
Check if there are any overlapping patterns between equal arm bodies in match_same_arm
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d23ddab82d
commit
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2 changed files with 256 additions and 10 deletions
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@ -1,19 +1,53 @@
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use clippy_utils::diagnostics::span_lint_and_then;
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use clippy_utils::source::snippet;
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use clippy_utils::{path_to_local, search_same, SpanlessEq, SpanlessHash};
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use rustc_hir::{Arm, Expr, HirId, HirIdMap, HirIdSet, Pat, PatKind};
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use rustc_ast::ast::LitKind;
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use rustc_hir::def_id::DefId;
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use rustc_hir::{Arm, Expr, ExprKind, HirId, HirIdMap, HirIdSet, Pat, PatKind, RangeEnd};
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use rustc_lint::LateContext;
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use rustc_span::Symbol;
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use std::collections::hash_map::Entry;
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use super::MATCH_SAME_ARMS;
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pub(crate) fn check<'tcx>(cx: &LateContext<'tcx>, arms: &'tcx [Arm<'_>]) {
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pub(super) fn check<'tcx>(cx: &LateContext<'tcx>, arms: &'tcx [Arm<'_>]) {
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let hash = |&(_, arm): &(usize, &Arm<'_>)| -> u64 {
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let mut h = SpanlessHash::new(cx);
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h.hash_expr(arm.body);
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h.finish()
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};
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let resolved_pats: Vec<_> = arms.iter().map(|a| ResolvedPat::from_pat(cx, a.pat)).collect();
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// The furthast forwards a pattern can move without semantic changes
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let forwards_blocking_idxs: Vec<_> = resolved_pats
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.iter()
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.enumerate()
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.map(|(i, pat)| {
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resolved_pats[i + 1..]
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.iter()
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.enumerate()
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.find_map(|(j, other)| pat.can_also_match(other).then(|| i + 1 + j))
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.unwrap_or(resolved_pats.len())
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})
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.collect();
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// The furthast backwards a pattern can move without semantic changes
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let backwards_blocking_idxs: Vec<_> = resolved_pats
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.iter()
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.enumerate()
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.map(|(i, pat)| {
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resolved_pats[..i]
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.iter()
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.enumerate()
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.rev()
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.zip(forwards_blocking_idxs[..i].iter().copied().rev())
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.skip_while(|&(_, forward_block)| forward_block > i)
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.find_map(|((j, other), forward_block)| (forward_block == i || pat.can_also_match(other)).then(|| j))
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.unwrap_or(0)
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})
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.collect();
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let eq = |&(lindex, lhs): &(usize, &Arm<'_>), &(rindex, rhs): &(usize, &Arm<'_>)| -> bool {
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let min_index = usize::min(lindex, rindex);
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let max_index = usize::max(lindex, rindex);
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@ -42,14 +76,16 @@ pub(crate) fn check<'tcx>(cx: &LateContext<'tcx>, arms: &'tcx [Arm<'_>]) {
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}
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};
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// Arms with a guard are ignored, those can’t always be merged together
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// This is also the case for arms in-between each there is an arm with a guard
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(min_index..=max_index).all(|index| arms[index].guard.is_none())
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&& SpanlessEq::new(cx)
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.expr_fallback(eq_fallback)
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.eq_expr(lhs.body, rhs.body)
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// these checks could be removed to allow unused bindings
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&& bindings_eq(lhs.pat, local_map.keys().copied().collect())
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&& bindings_eq(rhs.pat, local_map.values().copied().collect())
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// If both arms overlap with an arm in between then these can't be merged either.
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!(backwards_blocking_idxs[max_index] > min_index && forwards_blocking_idxs[min_index] < max_index)
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&& lhs.guard.is_none()
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&& rhs.guard.is_none()
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&& SpanlessEq::new(cx)
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.expr_fallback(eq_fallback)
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.eq_expr(lhs.body, rhs.body)
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// these checks could be removed to allow unused bindings
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&& bindings_eq(lhs.pat, local_map.keys().copied().collect())
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&& bindings_eq(rhs.pat, local_map.values().copied().collect())
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};
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let indexed_arms: Vec<(usize, &Arm<'_>)> = arms.iter().enumerate().collect();
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@ -92,6 +128,203 @@ pub(crate) fn check<'tcx>(cx: &LateContext<'tcx>, arms: &'tcx [Arm<'_>]) {
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}
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}
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#[derive(Debug)]
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enum ResolvedPat<'hir> {
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Wild,
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Struct(Option<DefId>, Vec<(Symbol, ResolvedPat<'hir>)>),
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Sequence(Option<DefId>, Vec<ResolvedPat<'hir>>, Option<usize>),
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Or(Vec<ResolvedPat<'hir>>),
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Path(Option<DefId>),
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LitStr(Symbol),
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LitBytes(&'hir [u8]),
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LitInt(u128),
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LitBool(bool),
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Range(PatRange),
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}
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#[derive(Debug)]
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struct PatRange {
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start: u128,
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end: u128,
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bounds: RangeEnd,
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}
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impl PatRange {
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fn contains(&self, x: u128) -> bool {
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x >= self.start
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&& match self.bounds {
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RangeEnd::Included => x <= self.end,
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RangeEnd::Excluded => x < self.end,
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}
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}
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fn overlaps(&self, other: &Self) -> bool {
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!(self.is_empty() || other.is_empty())
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&& match self.bounds {
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RangeEnd::Included => self.end >= other.start,
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RangeEnd::Excluded => self.end > other.start,
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}
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&& match other.bounds {
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RangeEnd::Included => self.start <= other.end,
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RangeEnd::Excluded => self.start < other.end,
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}
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}
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fn is_empty(&self) -> bool {
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match self.bounds {
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RangeEnd::Included => false,
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RangeEnd::Excluded => self.start == self.end,
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}
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}
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}
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impl<'hir> ResolvedPat<'hir> {
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fn from_pat(cx: &LateContext<'_>, pat: &'hir Pat<'_>) -> Self {
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match pat.kind {
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PatKind::Wild | PatKind::Binding(.., None) => Self::Wild,
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PatKind::Binding(.., Some(pat)) | PatKind::Box(pat) | PatKind::Ref(pat, _) => Self::from_pat(cx, pat),
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PatKind::Struct(ref path, fields, _) => {
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let mut fields: Vec<_> = fields
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.iter()
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.map(|f| (f.ident.name, Self::from_pat(cx, f.pat)))
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.collect();
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fields.sort_by_key(|&(name, _)| name);
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Self::Struct(cx.qpath_res(path, pat.hir_id).opt_def_id(), fields)
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},
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PatKind::TupleStruct(ref path, pats, wild_idx) => Self::Sequence(
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cx.qpath_res(path, pat.hir_id).opt_def_id(),
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pats.iter().map(|pat| Self::from_pat(cx, pat)).collect(),
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wild_idx,
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),
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PatKind::Or(pats) => Self::Or(pats.iter().map(|pat| Self::from_pat(cx, pat)).collect()),
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PatKind::Path(ref path) => Self::Path(cx.qpath_res(path, pat.hir_id).opt_def_id()),
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PatKind::Tuple(pats, wild_idx) => {
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Self::Sequence(None, pats.iter().map(|pat| Self::from_pat(cx, pat)).collect(), wild_idx)
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},
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PatKind::Lit(e) => match &e.kind {
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ExprKind::Lit(lit) => match lit.node {
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LitKind::Str(sym, _) => Self::LitStr(sym),
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LitKind::ByteStr(ref bytes) => Self::LitBytes(&**bytes),
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LitKind::Byte(val) => Self::LitInt(val.into()),
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LitKind::Char(val) => Self::LitInt(val.into()),
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LitKind::Int(val, _) => Self::LitInt(val),
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LitKind::Bool(val) => Self::LitBool(val),
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LitKind::Float(..) | LitKind::Err(_) => Self::Wild,
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},
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_ => Self::Wild,
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},
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PatKind::Range(start, end, bounds) => {
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let start = match start {
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None => 0,
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Some(e) => match &e.kind {
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ExprKind::Lit(lit) => match lit.node {
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LitKind::Int(val, _) => val,
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LitKind::Char(val) => val.into(),
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LitKind::Byte(val) => val.into(),
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_ => return Self::Wild,
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},
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_ => return Self::Wild,
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},
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};
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let (end, bounds) = match end {
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None => (u128::MAX, RangeEnd::Included),
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Some(e) => match &e.kind {
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ExprKind::Lit(lit) => match lit.node {
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LitKind::Int(val, _) => (val, bounds),
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LitKind::Char(val) => (val.into(), bounds),
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LitKind::Byte(val) => (val.into(), bounds),
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_ => return Self::Wild,
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},
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_ => return Self::Wild,
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},
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};
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Self::Range(PatRange { start, end, bounds })
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},
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PatKind::Slice(pats, wild, pats2) => Self::Sequence(
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None,
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pats.iter()
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.chain(pats2.iter())
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.map(|pat| Self::from_pat(cx, pat))
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.collect(),
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wild.map(|_| pats.len()),
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),
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}
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}
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/// Checks if two patterns overlap in the values they can match assuming they are for the same
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/// type.
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fn can_also_match(&self, other: &Self) -> bool {
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match (self, other) {
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(Self::Wild, _) | (_, Self::Wild) => true,
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(Self::Or(pats), other) | (other, Self::Or(pats)) => pats.iter().any(|pat| pat.can_also_match(other)),
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(Self::Struct(lpath, lfields), Self::Struct(rpath, rfields)) => {
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if lpath != rpath {
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return false;
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}
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let mut rfields = rfields.iter();
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let mut rfield = match rfields.next() {
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Some(x) => x,
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None => return true,
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};
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'outer: for lfield in lfields {
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loop {
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if lfield.0 < rfield.0 {
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continue 'outer;
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} else if lfield.0 > rfield.0 {
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rfield = match rfields.next() {
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Some(x) => x,
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None => return true,
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};
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} else if !lfield.1.can_also_match(&rfield.1) {
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return false;
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} else {
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rfield = match rfields.next() {
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Some(x) => x,
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None => return true,
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};
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continue 'outer;
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}
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}
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}
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true
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},
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(Self::Sequence(lpath, lpats, lwild_idx), Self::Sequence(rpath, rpats, rwild_idx)) => {
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if lpath != rpath {
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return false;
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}
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let (lpats_start, lpats_end) = lwild_idx
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.or(*rwild_idx)
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.map_or((&**lpats, [].as_slice()), |idx| lpats.split_at(idx));
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let (rpats_start, rpats_end) = rwild_idx
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.or(*lwild_idx)
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.map_or((&**rpats, [].as_slice()), |idx| rpats.split_at(idx));
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lpats_start
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.iter()
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.zip(rpats_start.iter())
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.all(|(lpat, rpat)| lpat.can_also_match(rpat))
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// `lpats_end` and `rpats_end` lengths may be disjointed, so start from the end and ignore any
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// extras.
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&& lpats_end
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.iter()
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.rev()
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.zip(rpats_end.iter().rev())
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.all(|(lpat, rpat)| lpat.can_also_match(rpat))
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},
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(Self::Path(x), Self::Path(y)) => x == y,
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(Self::LitStr(x), Self::LitStr(y)) => x == y,
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(Self::LitBytes(x), Self::LitBytes(y)) => x == y,
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(Self::LitInt(x), Self::LitInt(y)) => x == y,
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(Self::LitBool(x), Self::LitBool(y)) => x == y,
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(Self::Range(x), Self::Range(y)) => x.overlaps(y),
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(Self::Range(range), Self::LitInt(x)) | (Self::LitInt(x), Self::Range(range)) => range.contains(*x),
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// Todo: Lit* with Path, Range with Path, LitBytes with Sequence
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_ => true,
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}
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}
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}
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fn pat_contains_local(pat: &Pat<'_>, id: HirId) -> bool {
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let mut result = false;
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pat.walk_short(|p| {
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@ -174,4 +174,17 @@ fn main() {
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Some(2) => 2,
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_ => 1,
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};
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enum Foo {
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X(u32),
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Y(u32),
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Z(u32),
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}
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let _ = match Foo::X(0) {
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Foo::X(0) => 1,
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Foo::X(_) | Foo::Y(_) | Foo::Z(0) => 2,
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Foo::Z(_) => 1,
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_ => 0,
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};
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}
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