Remove Ty: Copy bound

This commit is contained in:
Nadrieril 2023-12-23 00:21:27 +01:00
parent 227abacaef
commit 796cdc590c
6 changed files with 32 additions and 31 deletions

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@ -1130,7 +1130,7 @@ fn collect_non_exhaustive_tys<'tcx>(
non_exhaustive_tys.insert(pat.ty().inner());
}
if let Constructor::IntRange(range) = pat.ctor() {
if cx.is_range_beyond_boundaries(range, pat.ty()) {
if cx.is_range_beyond_boundaries(range, *pat.ty()) {
// The range denotes the values before `isize::MIN` or the values after `usize::MAX`/`isize::MAX`.
non_exhaustive_tys.insert(pat.ty().inner());
}

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@ -82,7 +82,7 @@ impl<'a, T: ?Sized> Captures<'a> for T {}
/// Most of the crate is parameterized on a type that implements this trait.
pub trait TypeCx: Sized + fmt::Debug {
/// The type of a pattern.
type Ty: Copy + Clone + fmt::Debug; // FIXME: remove Copy
type Ty: Clone + fmt::Debug;
/// Errors that can abort analysis.
type Error: fmt::Debug;
/// The index of an enum variant.
@ -97,16 +97,16 @@ pub trait TypeCx: Sized + fmt::Debug {
fn is_exhaustive_patterns_feature_on(&self) -> bool;
/// The number of fields for this constructor.
fn ctor_arity(&self, ctor: &Constructor<Self>, ty: Self::Ty) -> usize;
fn ctor_arity(&self, ctor: &Constructor<Self>, ty: &Self::Ty) -> usize;
/// The types of the fields for this constructor. The result must have a length of
/// `ctor_arity()`.
fn ctor_sub_tys(&self, ctor: &Constructor<Self>, ty: Self::Ty) -> &[Self::Ty];
fn ctor_sub_tys(&self, ctor: &Constructor<Self>, ty: &Self::Ty) -> &[Self::Ty];
/// The set of all the constructors for `ty`.
///
/// This must follow the invariants of `ConstructorSet`
fn ctors_for_ty(&self, ty: Self::Ty) -> Result<ConstructorSet<Self>, Self::Error>;
fn ctors_for_ty(&self, ty: &Self::Ty) -> Result<ConstructorSet<Self>, Self::Error>;
/// Best-effort `Debug` implementation.
fn debug_pat(f: &mut fmt::Formatter<'_>, pat: &DeconstructedPat<'_, Self>) -> fmt::Result;

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@ -46,7 +46,7 @@ impl<'p, 'tcx> PatternColumn<'p, 'tcx> {
}
fn head_ty(&self) -> Option<RevealedTy<'tcx>> {
self.patterns.first().map(|pat| pat.ty())
self.patterns.first().map(|pat| *pat.ty())
}
/// Do constructor splitting on the constructors of the column.
@ -101,7 +101,7 @@ fn collect_nonexhaustive_missing_variants<'a, 'p, 'tcx>(
let Some(ty) = column.head_ty() else {
return Ok(Vec::new());
};
let pcx = &PlaceCtxt::new_dummy(cx, ty);
let pcx = &PlaceCtxt::new_dummy(cx, &ty);
let set = column.analyze_ctors(pcx)?;
if set.present.is_empty() {

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@ -54,8 +54,8 @@ impl<'p, Cx: TypeCx> DeconstructedPat<'p, Cx> {
pub fn ctor(&self) -> &Constructor<Cx> {
&self.ctor
}
pub fn ty(&self) -> Cx::Ty {
self.ty
pub fn ty(&self) -> &Cx::Ty {
&self.ty
}
/// Returns the extra data stored in a pattern. Returns `None` if the pattern is a wildcard that
/// does not correspond to a user-supplied pattern.
@ -242,15 +242,15 @@ impl<Cx: TypeCx> WitnessPat<Cx> {
/// `Some(_)`.
pub(crate) fn wild_from_ctor(pcx: &PlaceCtxt<'_, Cx>, ctor: Constructor<Cx>) -> Self {
let field_tys = pcx.ctor_sub_tys(&ctor);
let fields = field_tys.iter().map(|ty| Self::wildcard(*ty)).collect();
Self::new(ctor, fields, pcx.ty)
let fields = field_tys.iter().cloned().map(|ty| Self::wildcard(ty)).collect();
Self::new(ctor, fields, pcx.ty.clone())
}
pub fn ctor(&self) -> &Constructor<Cx> {
&self.ctor
}
pub fn ty(&self) -> Cx::Ty {
self.ty
pub fn ty(&self) -> &Cx::Ty {
&self.ty
}
pub fn iter_fields(&self) -> impl Iterator<Item = &WitnessPat<Cx>> {

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@ -766,7 +766,7 @@ impl<'p, 'tcx> RustcMatchCheckCtxt<'p, 'tcx> {
let mut subpatterns = pat.iter_fields().map(|p| Box::new(cx.hoist_witness_pat(p)));
let kind = match pat.ctor() {
Bool(b) => PatKind::Constant { value: mir::Const::from_bool(cx.tcx, *b) },
IntRange(range) => return self.hoist_pat_range(range, pat.ty()),
IntRange(range) => return self.hoist_pat_range(range, *pat.ty()),
Struct | Variant(_) | UnionField => match pat.ty().kind() {
ty::Tuple(..) => PatKind::Leaf {
subpatterns: subpatterns
@ -785,7 +785,7 @@ impl<'p, 'tcx> RustcMatchCheckCtxt<'p, 'tcx> {
RustcMatchCheckCtxt::variant_index_for_adt(&pat.ctor(), *adt_def);
let variant = &adt_def.variant(variant_index);
let subpatterns = cx
.list_variant_nonhidden_fields(pat.ty(), variant)
.list_variant_nonhidden_fields(*pat.ty(), variant)
.zip(subpatterns)
.map(|((field, _ty), pattern)| FieldPat { field, pattern })
.collect();
@ -796,7 +796,7 @@ impl<'p, 'tcx> RustcMatchCheckCtxt<'p, 'tcx> {
PatKind::Leaf { subpatterns }
}
}
_ => bug!("unexpected ctor for type {:?} {:?}", pat.ctor(), pat.ty()),
_ => bug!("unexpected ctor for type {:?} {:?}", pat.ctor(), *pat.ty()),
},
// Note: given the expansion of `&str` patterns done in `expand_pattern`, we should
// be careful to reconstruct the correct constant pattern here. However a string
@ -961,21 +961,21 @@ impl<'p, 'tcx> TypeCx for RustcMatchCheckCtxt<'p, 'tcx> {
self.tcx.features().exhaustive_patterns
}
fn ctor_arity(&self, ctor: &crate::constructor::Constructor<Self>, ty: Self::Ty) -> usize {
self.ctor_arity(ctor, ty)
fn ctor_arity(&self, ctor: &crate::constructor::Constructor<Self>, ty: &Self::Ty) -> usize {
self.ctor_arity(ctor, *ty)
}
fn ctor_sub_tys(
&self,
ctor: &crate::constructor::Constructor<Self>,
ty: Self::Ty,
ty: &Self::Ty,
) -> &[Self::Ty] {
self.ctor_sub_tys(ctor, ty)
self.ctor_sub_tys(ctor, *ty)
}
fn ctors_for_ty(
&self,
ty: Self::Ty,
ty: &Self::Ty,
) -> Result<crate::constructor::ConstructorSet<Self>, Self::Error> {
self.ctors_for_ty(ty)
self.ctors_for_ty(*ty)
}
fn debug_pat(
@ -994,7 +994,7 @@ impl<'p, 'tcx> TypeCx for RustcMatchCheckCtxt<'p, 'tcx> {
overlaps_on: IntRange,
overlaps_with: &[&crate::pat::DeconstructedPat<'_, Self>],
) {
let overlap_as_pat = self.hoist_pat_range(&overlaps_on, pat.ty());
let overlap_as_pat = self.hoist_pat_range(&overlaps_on, *pat.ty());
let overlaps: Vec<_> = overlaps_with
.iter()
.map(|pat| pat.data().unwrap().span)

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@ -736,13 +736,14 @@ pub(crate) struct PlaceCtxt<'a, Cx: TypeCx> {
#[derivative(Debug = "ignore")]
pub(crate) mcx: MatchCtxt<'a, Cx>,
/// Type of the place under investigation.
pub(crate) ty: Cx::Ty,
#[derivative(Clone(clone_with = "Clone::clone"))] // See rust-derivative#90
pub(crate) ty: &'a Cx::Ty,
}
impl<'a, Cx: TypeCx> PlaceCtxt<'a, Cx> {
/// A `PlaceCtxt` when code other than `is_useful` needs one.
#[cfg_attr(not(feature = "rustc"), allow(dead_code))]
pub(crate) fn new_dummy(mcx: MatchCtxt<'a, Cx>, ty: Cx::Ty) -> Self {
pub(crate) fn new_dummy(mcx: MatchCtxt<'a, Cx>, ty: &'a Cx::Ty) -> Self {
PlaceCtxt { mcx, ty }
}
@ -1023,8 +1024,8 @@ impl<'p, Cx: TypeCx> Matrix<'p, Cx> {
matrix
}
fn head_ty(&self) -> Option<Cx::Ty> {
self.place_ty.first().copied()
fn head_ty(&self) -> Option<&Cx::Ty> {
self.place_ty.first()
}
fn column_count(&self) -> usize {
self.place_ty.len()
@ -1058,7 +1059,7 @@ impl<'p, Cx: TypeCx> Matrix<'p, Cx> {
let ctor_sub_tys = pcx.ctor_sub_tys(ctor);
let arity = ctor_sub_tys.len();
let specialized_place_ty =
ctor_sub_tys.iter().chain(self.place_ty[1..].iter()).copied().collect();
ctor_sub_tys.iter().chain(self.place_ty[1..].iter()).cloned().collect();
let ctor_sub_validity = self.place_validity[0].specialize(ctor);
let specialized_place_validity = std::iter::repeat(ctor_sub_validity)
.take(arity)
@ -1214,7 +1215,7 @@ impl<Cx: TypeCx> WitnessStack<Cx> {
let len = self.0.len();
let arity = ctor.arity(pcx);
let fields = self.0.drain((len - arity)..).rev().collect();
let pat = WitnessPat::new(ctor.clone(), fields, pcx.ty);
let pat = WitnessPat::new(ctor.clone(), fields, pcx.ty.clone());
self.0.push(pat);
}
}
@ -1410,7 +1411,7 @@ fn compute_exhaustiveness_and_usefulness<'a, 'p, Cx: TypeCx>(
return Ok(WitnessMatrix::empty());
}
let Some(ty) = matrix.head_ty() else {
let Some(ty) = matrix.head_ty().cloned() else {
// The base case: there are no columns in the matrix. We are morally pattern-matching on ().
// A row is useful iff it has no (unguarded) rows above it.
let mut useful = true; // Whether the next row is useful.
@ -1431,7 +1432,7 @@ fn compute_exhaustiveness_and_usefulness<'a, 'p, Cx: TypeCx>(
};
debug!("ty: {ty:?}");
let pcx = &PlaceCtxt { mcx, ty };
let pcx = &PlaceCtxt { mcx, ty: &ty };
let ctors_for_ty = pcx.ctors_for_ty()?;
// Whether the place/column we are inspecting is known to contain valid data.