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Rollup merge of #128965 - Zalathar:no-pat, r=Nadrieril
Remove `print::Pat` from the printing of `WitnessPat` After the preliminary work done in #128536, we can now get rid of `print::Pat` entirely. - First, we introduce a variant `PatKind::Print(String)`. - Then we incrementally remove each other variant of `PatKind`, by having the relevant code produce `PatKind::Print` instead. - Once `PatKind::Print` is the only remaining variant, it becomes easy to remove `print::Pat` and replace it with `String`. There is more cleanup that I have in mind, but this seemed like a natural stopping point for one PR. r? ```@Nadrieril```
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commit
5858329f1a
@ -774,17 +774,16 @@ impl<'p, 'tcx: 'p> RustcPatCtxt<'p, 'tcx> {
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}
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}
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/// Convert to a [`print::Pat`] for diagnostic purposes.
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fn hoist_pat_range(&self, range: &IntRange, ty: RevealedTy<'tcx>) -> print::Pat<'tcx> {
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use print::{Pat, PatKind};
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/// Prints an [`IntRange`] to a string for diagnostic purposes.
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fn print_pat_range(&self, range: &IntRange, ty: RevealedTy<'tcx>) -> String {
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use MaybeInfiniteInt::*;
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let cx = self;
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let kind = if matches!((range.lo, range.hi), (NegInfinity, PosInfinity)) {
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PatKind::Wild
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if matches!((range.lo, range.hi), (NegInfinity, PosInfinity)) {
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"_".to_string()
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} else if range.is_singleton() {
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let lo = cx.hoist_pat_range_bdy(range.lo, ty);
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let value = lo.as_finite().unwrap();
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PatKind::Constant { value }
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value.to_string()
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} else {
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// We convert to an inclusive range for diagnostics.
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let mut end = rustc_hir::RangeEnd::Included;
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@ -807,32 +806,24 @@ impl<'p, 'tcx: 'p> RustcPatCtxt<'p, 'tcx> {
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range.hi
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};
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let hi = cx.hoist_pat_range_bdy(hi, ty);
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PatKind::Range(Box::new(PatRange { lo, hi, end, ty: ty.inner() }))
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};
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Pat { ty: ty.inner(), kind }
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PatRange { lo, hi, end, ty: ty.inner() }.to_string()
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}
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}
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/// Prints a [`WitnessPat`] to an owned string, for diagnostic purposes.
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///
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/// This panics for patterns that don't appear in diagnostics, like float ranges.
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pub fn print_witness_pat(&self, pat: &WitnessPat<'p, 'tcx>) -> String {
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// This works by converting the witness pattern to a `print::Pat`
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// and then printing that, but callers don't need to know that.
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self.hoist_witness_pat(pat).to_string()
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}
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/// Convert to a [`print::Pat`] for diagnostic purposes. This panics for patterns that don't
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/// appear in diagnostics, like float ranges.
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fn hoist_witness_pat(&self, pat: &WitnessPat<'p, 'tcx>) -> print::Pat<'tcx> {
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use print::{FieldPat, Pat, PatKind};
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let cx = self;
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let hoist = |p| Box::new(cx.hoist_witness_pat(p));
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let kind = match pat.ctor() {
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Bool(b) => PatKind::Constant { value: mir::Const::from_bool(cx.tcx, *b) },
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IntRange(range) => return self.hoist_pat_range(range, *pat.ty()),
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let print = |p| cx.print_witness_pat(p);
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match pat.ctor() {
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Bool(b) => b.to_string(),
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Str(s) => s.to_string(),
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IntRange(range) => return self.print_pat_range(range, *pat.ty()),
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Struct if pat.ty().is_box() => {
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// Outside of the `alloc` crate, the only way to create a struct pattern
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// of type `Box` is to use a `box` pattern via #[feature(box_patterns)].
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PatKind::Box { subpattern: hoist(&pat.fields[0]) }
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format!("box {}", print(&pat.fields[0]))
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}
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Struct | Variant(_) | UnionField => {
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let enum_info = match *pat.ty().kind() {
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@ -847,12 +838,29 @@ impl<'p, 'tcx: 'p> RustcPatCtxt<'p, 'tcx> {
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let subpatterns = pat
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.iter_fields()
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.enumerate()
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.map(|(i, pat)| FieldPat { field: FieldIdx::new(i), pattern: hoist(pat) })
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.map(|(i, pat)| print::FieldPat {
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field: FieldIdx::new(i),
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pattern: print(pat),
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is_wildcard: would_print_as_wildcard(cx.tcx, pat),
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})
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.collect::<Vec<_>>();
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PatKind::StructLike { enum_info, subpatterns }
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let mut s = String::new();
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print::write_struct_like(
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&mut s,
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self.tcx,
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pat.ty().inner(),
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&enum_info,
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&subpatterns,
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)
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.unwrap();
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s
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}
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Ref => {
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let mut s = String::new();
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print::write_ref_like(&mut s, pat.ty().inner(), &print(&pat.fields[0])).unwrap();
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s
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}
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Ref => PatKind::Deref { subpattern: hoist(&pat.fields[0]) },
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Slice(slice) => {
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let (prefix_len, has_dot_dot) = match slice.kind {
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SliceKind::FixedLen(len) => (len, false),
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@ -879,14 +887,15 @@ impl<'p, 'tcx: 'p> RustcPatCtxt<'p, 'tcx> {
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}
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}
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let prefix = prefix.iter().map(hoist).collect();
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let suffix = suffix.iter().map(hoist).collect();
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let prefix = prefix.iter().map(print).collect::<Vec<_>>();
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let suffix = suffix.iter().map(print).collect::<Vec<_>>();
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PatKind::Slice { prefix, has_dot_dot, suffix }
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let mut s = String::new();
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print::write_slice_like(&mut s, &prefix, has_dot_dot, &suffix).unwrap();
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s
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}
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&Str(value) => PatKind::Constant { value },
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Never if self.tcx.features().never_patterns => PatKind::Never,
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Never | Wildcard | NonExhaustive | Hidden | PrivateUninhabited => PatKind::Wild,
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Never if self.tcx.features().never_patterns => "!".to_string(),
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Never | Wildcard | NonExhaustive | Hidden | PrivateUninhabited => "_".to_string(),
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Missing { .. } => bug!(
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"trying to convert a `Missing` constructor into a `Pat`; this is probably a bug,
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`Missing` should have been processed in `apply_constructors`"
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@ -894,9 +903,7 @@ impl<'p, 'tcx: 'p> RustcPatCtxt<'p, 'tcx> {
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F16Range(..) | F32Range(..) | F64Range(..) | F128Range(..) | Opaque(..) | Or => {
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bug!("can't convert to pattern: {:?}", pat)
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}
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};
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Pat { ty: pat.ty().inner(), kind }
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}
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}
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}
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@ -972,7 +979,7 @@ impl<'p, 'tcx: 'p> PatCx for RustcPatCtxt<'p, 'tcx> {
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overlaps_on: IntRange,
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overlaps_with: &[&crate::pat::DeconstructedPat<Self>],
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) {
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let overlap_as_pat = self.hoist_pat_range(&overlaps_on, *pat.ty());
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let overlap_as_pat = self.print_pat_range(&overlaps_on, *pat.ty());
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let overlaps: Vec<_> = overlaps_with
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.iter()
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.map(|pat| pat.data().span)
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@ -1012,7 +1019,7 @@ impl<'p, 'tcx: 'p> PatCx for RustcPatCtxt<'p, 'tcx> {
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suggested_range.end = rustc_hir::RangeEnd::Included;
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suggested_range.to_string()
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};
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let gap_as_pat = self.hoist_pat_range(&gap, *pat.ty());
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let gap_as_pat = self.print_pat_range(&gap, *pat.ty());
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if gapped_with.is_empty() {
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// If `gapped_with` is empty, `gap == T::MAX`.
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self.tcx.emit_node_span_lint(
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@ -11,75 +11,16 @@
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use std::fmt;
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use rustc_middle::thir::PatRange;
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use rustc_middle::bug;
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use rustc_middle::ty::{self, AdtDef, Ty, TyCtxt};
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use rustc_middle::{bug, mir};
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use rustc_span::sym;
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use rustc_target::abi::{FieldIdx, VariantIdx};
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#[derive(Clone, Debug)]
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pub(crate) struct FieldPat<'tcx> {
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pub(crate) struct FieldPat {
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pub(crate) field: FieldIdx,
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pub(crate) pattern: Box<Pat<'tcx>>,
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}
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#[derive(Clone, Debug)]
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pub(crate) struct Pat<'tcx> {
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pub(crate) ty: Ty<'tcx>,
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pub(crate) kind: PatKind<'tcx>,
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}
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#[derive(Clone, Debug)]
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pub(crate) enum PatKind<'tcx> {
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Wild,
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StructLike {
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enum_info: EnumInfo<'tcx>,
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subpatterns: Vec<FieldPat<'tcx>>,
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},
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Box {
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subpattern: Box<Pat<'tcx>>,
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},
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Deref {
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subpattern: Box<Pat<'tcx>>,
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},
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Constant {
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value: mir::Const<'tcx>,
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},
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Range(Box<PatRange<'tcx>>),
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Slice {
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prefix: Box<[Box<Pat<'tcx>>]>,
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/// True if this slice-like pattern should include a `..` between the
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/// prefix and suffix.
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has_dot_dot: bool,
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suffix: Box<[Box<Pat<'tcx>>]>,
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},
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Never,
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}
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impl<'tcx> fmt::Display for Pat<'tcx> {
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fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
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match self.kind {
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PatKind::Wild => write!(f, "_"),
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PatKind::Never => write!(f, "!"),
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PatKind::Box { ref subpattern } => write!(f, "box {subpattern}"),
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PatKind::StructLike { ref enum_info, ref subpatterns } => {
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ty::tls::with(|tcx| write_struct_like(f, tcx, self.ty, enum_info, subpatterns))
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}
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PatKind::Deref { ref subpattern } => write_ref_like(f, self.ty, subpattern),
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PatKind::Constant { value } => write!(f, "{value}"),
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PatKind::Range(ref range) => write!(f, "{range}"),
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PatKind::Slice { ref prefix, has_dot_dot, ref suffix } => {
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write_slice_like(f, prefix, has_dot_dot, suffix)
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}
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}
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}
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pub(crate) pattern: String,
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pub(crate) is_wildcard: bool,
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}
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/// Returns a closure that will return `""` when called the first time,
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@ -103,12 +44,12 @@ pub(crate) enum EnumInfo<'tcx> {
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NotEnum,
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}
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fn write_struct_like<'tcx>(
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pub(crate) fn write_struct_like<'tcx>(
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f: &mut impl fmt::Write,
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tcx: TyCtxt<'_>,
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ty: Ty<'tcx>,
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enum_info: &EnumInfo<'tcx>,
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subpatterns: &[FieldPat<'tcx>],
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subpatterns: &[FieldPat],
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) -> fmt::Result {
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let variant_and_name = match *enum_info {
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EnumInfo::Enum { adt_def, variant_index } => {
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@ -139,12 +80,12 @@ fn write_struct_like<'tcx>(
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write!(f, " {{ ")?;
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let mut printed = 0;
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for p in subpatterns {
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if let PatKind::Wild = p.pattern.kind {
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for &FieldPat { field, ref pattern, is_wildcard } in subpatterns {
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if is_wildcard {
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continue;
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}
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let name = variant.fields[p.field].name;
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write!(f, "{}{}: {}", start_or_comma(), name, p.pattern)?;
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let field_name = variant.fields[field].name;
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write!(f, "{}{field_name}: {pattern}", start_or_comma())?;
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printed += 1;
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}
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@ -184,10 +125,10 @@ fn write_struct_like<'tcx>(
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Ok(())
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}
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fn write_ref_like<'tcx>(
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pub(crate) fn write_ref_like<'tcx>(
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f: &mut impl fmt::Write,
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ty: Ty<'tcx>,
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subpattern: &Pat<'tcx>,
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subpattern: &str,
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) -> fmt::Result {
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match ty.kind() {
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ty::Ref(_, _, mutbl) => {
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@ -198,11 +139,11 @@ fn write_ref_like<'tcx>(
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write!(f, "{subpattern}")
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}
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fn write_slice_like<'tcx>(
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pub(crate) fn write_slice_like(
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f: &mut impl fmt::Write,
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prefix: &[Box<Pat<'tcx>>],
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prefix: &[String],
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has_dot_dot: bool,
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suffix: &[Box<Pat<'tcx>>],
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suffix: &[String],
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) -> fmt::Result {
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let mut start_or_comma = start_or_comma();
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write!(f, "[")?;
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