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https://github.com/rust-lang/rust.git
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Rename Skip
to PrivateUninhabited
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parent
39441e4cdd
commit
c918893b63
@ -688,10 +688,9 @@ pub enum Constructor<Cx: TypeCx> {
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/// Fake extra constructor for constructors that are not seen in the matrix, as explained at the
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/// top of the file.
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Missing,
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/// Fake extra constructor that indicates that we should skip the column entirely. This is used
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/// when a private field is empty, so that we don't observe its emptiness. Only used for
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/// specialization.
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Skip,
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/// Fake extra constructor that indicates and empty field that is private. When we encounter one
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/// we skip the column entirely so we don't observe its emptiness. Only used for specialization.
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PrivateUninhabited,
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}
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impl<Cx: TypeCx> Clone for Constructor<Cx> {
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@ -713,7 +712,7 @@ impl<Cx: TypeCx> Clone for Constructor<Cx> {
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Constructor::NonExhaustive => Constructor::NonExhaustive,
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Constructor::Hidden => Constructor::Hidden,
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Constructor::Missing => Constructor::Missing,
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Constructor::Skip => Constructor::Skip,
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Constructor::PrivateUninhabited => Constructor::PrivateUninhabited,
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}
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}
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}
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@ -768,8 +767,8 @@ impl<Cx: TypeCx> Constructor<Cx> {
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}
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// Wildcards cover anything
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(_, Wildcard) => true,
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// `Skip` skips everything.
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(Skip, _) => true,
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// `PrivateUninhabited` skips everything.
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(PrivateUninhabited, _) => true,
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// Only a wildcard pattern can match these special constructors.
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(Missing { .. } | NonExhaustive | Hidden, _) => false,
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@ -82,9 +82,10 @@ use crate::usefulness::{compute_match_usefulness, ValidityConstraint};
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pub trait Captures<'a> {}
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impl<'a, T: ?Sized> Captures<'a> for T {}
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/// `bool` newtype that indicates whether we should skip this field during analysis.
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/// `bool` newtype that indicates whether this is a privately uninhabited field that we should skip
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/// during analysis.
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#[derive(Copy, Clone, Debug, PartialEq, Eq)]
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pub struct SkipField(pub bool);
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pub struct PrivateUninhabitedField(pub bool);
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/// Context that provides type information about constructors.
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///
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@ -114,7 +115,7 @@ pub trait TypeCx: Sized + fmt::Debug {
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&'a self,
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ctor: &'a Constructor<Self>,
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ty: &'a Self::Ty,
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) -> impl Iterator<Item = (Self::Ty, SkipField)> + ExactSizeIterator + Captures<'a>;
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) -> impl Iterator<Item = (Self::Ty, PrivateUninhabitedField)> + ExactSizeIterator + Captures<'a>;
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/// The set of all the constructors for `ty`.
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///
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@ -5,7 +5,7 @@ use std::fmt;
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use smallvec::{smallvec, SmallVec};
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use crate::constructor::{Constructor, Slice, SliceKind};
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use crate::{SkipField, TypeCx};
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use crate::{PrivateUninhabitedField, TypeCx};
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use self::Constructor::*;
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@ -80,7 +80,7 @@ impl<Cx: TypeCx> DeconstructedPat<Cx> {
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// Return a wildcard for each field of `other_ctor`.
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(Wildcard, _) => wildcard_sub_tys(),
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// Skip this column.
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(_, Skip) => smallvec![],
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(_, PrivateUninhabited) => smallvec![],
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// The only non-trivial case: two slices of different arity. `other_slice` is
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// guaranteed to have a larger arity, so we fill the middle part with enough
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// wildcards to reach the length of the new, larger slice.
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@ -189,7 +189,9 @@ impl<Cx: TypeCx> fmt::Debug for DeconstructedPat<Cx> {
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}
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Ok(())
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}
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Wildcard | Missing | NonExhaustive | Hidden | Skip => write!(f, "_ : {:?}", pat.ty()),
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Wildcard | Missing | NonExhaustive | Hidden | PrivateUninhabited => {
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write!(f, "_ : {:?}", pat.ty())
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}
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}
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}
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}
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@ -299,7 +301,7 @@ impl<Cx: TypeCx> WitnessPat<Cx> {
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pub(crate) fn wild_from_ctor(cx: &Cx, ctor: Constructor<Cx>, ty: Cx::Ty) -> Self {
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let fields = cx
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.ctor_sub_tys(&ctor, &ty)
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.filter(|(_, SkipField(skip))| !skip)
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.filter(|(_, PrivateUninhabitedField(skip))| !skip)
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.map(|(ty, _)| Self::wildcard(ty))
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.collect();
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Self::new(ctor, fields, ty)
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@ -18,7 +18,7 @@ use rustc_target::abi::{FieldIdx, Integer, VariantIdx, FIRST_VARIANT};
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use crate::constructor::{
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IntRange, MaybeInfiniteInt, OpaqueId, RangeEnd, Slice, SliceKind, VariantVisibility,
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};
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use crate::{errors, Captures, SkipField, TypeCx};
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use crate::{errors, Captures, PrivateUninhabitedField, TypeCx};
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use crate::constructor::Constructor::*;
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@ -195,14 +195,16 @@ impl<'p, 'tcx: 'p> RustcMatchCheckCtxt<'p, 'tcx> {
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&'a self,
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ctor: &'a Constructor<'p, 'tcx>,
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ty: RevealedTy<'tcx>,
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) -> impl Iterator<Item = (RevealedTy<'tcx>, SkipField)> + ExactSizeIterator + Captures<'a>
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{
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) -> impl Iterator<Item = (RevealedTy<'tcx>, PrivateUninhabitedField)>
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+ ExactSizeIterator
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+ Captures<'a> {
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fn reveal_and_alloc<'a, 'tcx>(
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cx: &'a RustcMatchCheckCtxt<'_, 'tcx>,
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iter: impl Iterator<Item = Ty<'tcx>>,
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) -> &'a [(RevealedTy<'tcx>, SkipField)] {
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) -> &'a [(RevealedTy<'tcx>, PrivateUninhabitedField)] {
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cx.dropless_arena.alloc_from_iter(
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iter.map(|ty| cx.reveal_opaque_ty(ty)).map(|ty| (ty, SkipField(false))),
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iter.map(|ty| cx.reveal_opaque_ty(ty))
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.map(|ty| (ty, PrivateUninhabitedField(false))),
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)
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}
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let cx = self;
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@ -230,7 +232,7 @@ impl<'p, 'tcx: 'p> RustcMatchCheckCtxt<'p, 'tcx> {
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|| cx.tcx.features().min_exhaustive_patterns)
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&& cx.is_uninhabited(*ty);
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let skip = is_uninhabited && (!is_visible || is_non_exhaustive);
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(ty, SkipField(skip))
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(ty, PrivateUninhabitedField(skip))
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});
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cx.dropless_arena.alloc_from_iter(tys)
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}
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@ -249,7 +251,7 @@ impl<'p, 'tcx: 'p> RustcMatchCheckCtxt<'p, 'tcx> {
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_ => bug!("bad slice pattern {:?} {:?}", ctor, ty),
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},
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Bool(..) | IntRange(..) | F32Range(..) | F64Range(..) | Str(..) | Opaque(..)
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| NonExhaustive | Hidden | Missing | Skip | Wildcard => &[],
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| NonExhaustive | Hidden | Missing | PrivateUninhabited | Wildcard => &[],
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Or => {
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bug!("called `Fields::wildcards` on an `Or` ctor")
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}
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@ -277,7 +279,7 @@ impl<'p, 'tcx: 'p> RustcMatchCheckCtxt<'p, 'tcx> {
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Ref => 1,
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Slice(slice) => slice.arity(),
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Bool(..) | IntRange(..) | F32Range(..) | F64Range(..) | Str(..) | Opaque(..)
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| NonExhaustive | Hidden | Missing | Skip | Wildcard => 0,
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| NonExhaustive | Hidden | Missing | PrivateUninhabited | Wildcard => 0,
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Or => bug!("The `Or` constructor doesn't have a fixed arity"),
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}
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}
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@ -805,7 +807,7 @@ impl<'p, 'tcx: 'p> RustcMatchCheckCtxt<'p, 'tcx> {
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}
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}
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&Str(value) => PatKind::Constant { value },
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Wildcard | NonExhaustive | Hidden | Skip => PatKind::Wild,
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Wildcard | NonExhaustive | Hidden | PrivateUninhabited => PatKind::Wild,
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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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@ -841,7 +843,8 @@ impl<'p, 'tcx: 'p> TypeCx for RustcMatchCheckCtxt<'p, 'tcx> {
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&'a self,
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ctor: &'a crate::constructor::Constructor<Self>,
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ty: &'a Self::Ty,
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) -> impl Iterator<Item = (Self::Ty, SkipField)> + ExactSizeIterator + Captures<'a> {
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) -> impl Iterator<Item = (Self::Ty, PrivateUninhabitedField)> + ExactSizeIterator + Captures<'a>
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{
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self.ctor_sub_tys(ctor, *ty)
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}
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fn ctors_for_ty(
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@ -716,7 +716,7 @@ use std::fmt;
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use crate::constructor::{Constructor, ConstructorSet, IntRange};
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use crate::pat::{DeconstructedPat, PatId, PatOrWild, WitnessPat};
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use crate::{Captures, MatchArm, SkipField, TypeCx};
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use crate::{Captures, MatchArm, PrivateUninhabitedField, TypeCx};
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use self::ValidityConstraint::*;
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@ -817,9 +817,9 @@ impl fmt::Display for ValidityConstraint {
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struct PlaceInfo<Cx: TypeCx> {
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/// The type of the place.
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ty: Cx::Ty,
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/// Whether we must skip this field during analysis. This is used when a private field is empty,
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/// Whether the place is a private uninhabited field. If so we skip this field during analysis
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/// so that we don't observe its emptiness.
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skip: SkipField,
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private_uninhabited: bool,
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/// Whether the place is known to contain valid data.
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validity: ValidityConstraint,
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/// Whether the place is the scrutinee itself or a subplace of it.
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@ -836,9 +836,9 @@ impl<Cx: TypeCx> PlaceInfo<Cx> {
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) -> impl Iterator<Item = Self> + ExactSizeIterator + Captures<'a> {
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let ctor_sub_tys = cx.ctor_sub_tys(ctor, &self.ty);
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let ctor_sub_validity = self.validity.specialize(ctor);
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ctor_sub_tys.map(move |(ty, skip)| PlaceInfo {
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ctor_sub_tys.map(move |(ty, PrivateUninhabitedField(private_uninhabited))| PlaceInfo {
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ty,
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skip,
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private_uninhabited,
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validity: ctor_sub_validity,
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is_scrutinee: false,
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})
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@ -860,9 +860,9 @@ impl<Cx: TypeCx> PlaceInfo<Cx> {
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where
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Cx: 'a,
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{
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if matches!(self.skip, SkipField(true)) {
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if self.private_uninhabited {
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// Skip the whole column
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return Ok((smallvec![Constructor::Skip], vec![]));
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return Ok((smallvec![Constructor::PrivateUninhabited], vec![]));
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}
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let ctors_for_ty = cx.ctors_for_ty(&self.ty)?;
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@ -925,7 +925,7 @@ impl<Cx: TypeCx> Clone for PlaceInfo<Cx> {
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fn clone(&self) -> Self {
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Self {
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ty: self.ty.clone(),
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skip: self.skip,
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private_uninhabited: self.private_uninhabited,
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validity: self.validity,
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is_scrutinee: self.is_scrutinee,
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}
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@ -1137,7 +1137,7 @@ impl<'p, Cx: TypeCx> Matrix<'p, Cx> {
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) -> Self {
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let place_info = PlaceInfo {
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ty: scrut_ty,
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skip: SkipField(false),
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private_uninhabited: false,
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validity: scrut_validity,
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is_scrutinee: true,
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};
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