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Rollup merge of rust-lang#120633 - Nadrieril:place_info, r=compiler-e…
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…rrors

pattern_analysis: gather up place-relevant info

We track 3 things about each place during exhaustiveness: its type, its (data) validity, and whether it's the scrutinee place. This PR gathers all three into a single struct.

r? ````@compiler-errors````
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Nadrieril authored Feb 7, 2024
2 parents 57caa20 + 6cac1c4 commit 6edc4d7
Showing 1 changed file with 57 additions and 40 deletions.
97 changes: 57 additions & 40 deletions compiler/rustc_pattern_analysis/src/usefulness.rs
Original file line number Diff line number Diff line change
Expand Up @@ -767,12 +767,6 @@ impl<'a, Cx: TypeCx> PlaceCtxt<'a, Cx> {
fn ctor_arity(&self, ctor: &Constructor<Cx>) -> usize {
self.cx.ctor_arity(ctor, self.ty)
}
fn ctor_sub_tys(
&'a self,
ctor: &'a Constructor<Cx>,
) -> impl Iterator<Item = Cx::Ty> + ExactSizeIterator + Captures<'a> {
self.cx.ctor_sub_tys(ctor, self.ty)
}
fn ctors_for_ty(&self) -> Result<ConstructorSet<Cx>, Cx::Error> {
self.cx.ctors_for_ty(self.ty)
}
Expand Down Expand Up @@ -828,6 +822,38 @@ impl fmt::Display for ValidityConstraint {
}
}

/// Data about a place under investigation.
struct PlaceInfo<Cx: TypeCx> {
/// The type of the place.
ty: Cx::Ty,
/// Whether the place is known to contain valid data.
validity: ValidityConstraint,
/// Whether the place is the scrutinee itself or a subplace of it.
is_scrutinee: bool,
}

impl<Cx: TypeCx> PlaceInfo<Cx> {
fn specialize<'a>(
&'a self,
cx: &'a Cx,
ctor: &'a Constructor<Cx>,
) -> impl Iterator<Item = Self> + ExactSizeIterator + Captures<'a> {
let ctor_sub_tys = cx.ctor_sub_tys(ctor, &self.ty);
let ctor_sub_validity = self.validity.specialize(ctor);
ctor_sub_tys.map(move |ty| PlaceInfo {
ty,
validity: ctor_sub_validity,
is_scrutinee: false,
})
}
}

impl<Cx: TypeCx> Clone for PlaceInfo<Cx> {
fn clone(&self) -> Self {
Self { ty: self.ty.clone(), validity: self.validity, is_scrutinee: self.is_scrutinee }
}
}

/// Represents a pattern-tuple under investigation.
// The three lifetimes are:
// - 'p coming from the input
Expand Down Expand Up @@ -1001,10 +1027,9 @@ struct Matrix<'p, Cx: TypeCx> {
/// each column must have the same type. Each column corresponds to a place within the
/// scrutinee.
rows: Vec<MatrixRow<'p, Cx>>,
/// Track the type of each column/place.
place_ty: SmallVec<[Cx::Ty; 2]>,
/// Track for each column/place whether it contains a known valid value.
place_validity: SmallVec<[ValidityConstraint; 2]>,
/// Track info about each place. Each place corresponds to a column in `rows`, and their types
/// must match.
place_info: SmallVec<[PlaceInfo<Cx>; 2]>,
/// Track whether the virtual wildcard row used to compute exhaustiveness is relevant. See top
/// of the file for details on relevancy.
wildcard_row_is_relevant: bool,
Expand Down Expand Up @@ -1032,10 +1057,10 @@ impl<'p, Cx: TypeCx> Matrix<'p, Cx> {
scrut_ty: Cx::Ty,
scrut_validity: ValidityConstraint,
) -> Self {
let place_info = PlaceInfo { ty: scrut_ty, validity: scrut_validity, is_scrutinee: true };
let mut matrix = Matrix {
rows: Vec::with_capacity(arms.len()),
place_ty: smallvec![scrut_ty],
place_validity: smallvec![scrut_validity],
place_info: smallvec![place_info],
wildcard_row_is_relevant: true,
};
for (row_id, arm) in arms.iter().enumerate() {
Expand All @@ -1051,11 +1076,11 @@ impl<'p, Cx: TypeCx> Matrix<'p, Cx> {
matrix
}

fn head_ty(&self) -> Option<&Cx::Ty> {
self.place_ty.first()
fn head_place(&self) -> Option<&PlaceInfo<Cx>> {
self.place_info.first()
}
fn column_count(&self) -> usize {
self.place_ty.len()
self.place_info.len()
}

fn rows(
Expand Down Expand Up @@ -1083,18 +1108,13 @@ impl<'p, Cx: TypeCx> Matrix<'p, Cx> {
ctor: &Constructor<Cx>,
ctor_is_relevant: bool,
) -> Result<Matrix<'p, Cx>, Cx::Error> {
let ctor_sub_tys = pcx.ctor_sub_tys(ctor);
let arity = ctor_sub_tys.len();
let specialized_place_ty = ctor_sub_tys.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)
.chain(self.place_validity[1..].iter().copied())
.collect();
let subfield_place_info = self.place_info[0].specialize(pcx.cx, ctor);
let arity = subfield_place_info.len();
let specialized_place_info =
subfield_place_info.chain(self.place_info[1..].iter().cloned()).collect();
let mut matrix = Matrix {
rows: Vec::new(),
place_ty: specialized_place_ty,
place_validity: specialized_place_validity,
place_info: specialized_place_info,
wildcard_row_is_relevant: self.wildcard_row_is_relevant && ctor_is_relevant,
};
for (i, row) in self.rows().enumerate() {
Expand Down Expand Up @@ -1127,11 +1147,11 @@ impl<'p, Cx: TypeCx> fmt::Debug for Matrix<'p, Cx> {
.map(|row| row.iter().map(|pat| format!("{pat:?}")).collect())
.collect();
pretty_printed_matrix
.push(self.place_validity.iter().map(|validity| format!("{validity}")).collect());
.push(self.place_info.iter().map(|place| format!("{}", place.validity)).collect());

let column_count = self.column_count();
assert!(self.rows.iter().all(|row| row.len() == column_count));
assert!(self.place_validity.len() == column_count);
assert!(self.place_info.len() == column_count);
let column_widths: Vec<usize> = (0..column_count)
.map(|col| pretty_printed_matrix.iter().map(|row| row[col].len()).max().unwrap_or(0))
.collect();
Expand Down Expand Up @@ -1432,11 +1452,10 @@ fn collect_overlapping_range_endpoints<'p, Cx: TypeCx>(
/// - unspecialization, where we lift the results from the previous step into results for this step
/// (using `apply_constructor` and by updating `row.useful` for each parent row).
/// This is all explained at the top of the file.
#[instrument(level = "debug", skip(mcx, is_top_level), ret)]
#[instrument(level = "debug", skip(mcx), ret)]
fn compute_exhaustiveness_and_usefulness<'a, 'p, Cx: TypeCx>(
mcx: UsefulnessCtxt<'a, Cx>,
matrix: &mut Matrix<'p, Cx>,
is_top_level: bool,
) -> Result<WitnessMatrix<Cx>, Cx::Error> {
debug_assert!(matrix.rows().all(|r| r.len() == matrix.column_count()));

Expand All @@ -1447,7 +1466,7 @@ fn compute_exhaustiveness_and_usefulness<'a, 'p, Cx: TypeCx>(
return Ok(WitnessMatrix::empty());
}

let Some(ty) = matrix.head_ty().cloned() else {
let Some(place) = matrix.head_place() 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.
Expand All @@ -1467,18 +1486,17 @@ fn compute_exhaustiveness_and_usefulness<'a, 'p, Cx: TypeCx>(
};
};

debug!("ty: {ty:?}");
let pcx = &PlaceCtxt { cx: mcx.tycx, ty: &ty };
let ty = &place.ty.clone(); // Clone it out so we can mutate `matrix` later.
let pcx = &PlaceCtxt { cx: mcx.tycx, ty };
debug!("ty: {:?}", pcx.ty);
let ctors_for_ty = pcx.ctors_for_ty()?;

// Whether the place/column we are inspecting is known to contain valid data.
let place_validity = matrix.place_validity[0];
// We treat match scrutinees of type `!` or `EmptyEnum` differently.
let is_toplevel_exception =
is_top_level && matches!(ctors_for_ty, ConstructorSet::NoConstructors);
place.is_scrutinee && matches!(ctors_for_ty, ConstructorSet::NoConstructors);
// Whether empty patterns are counted as useful or not. We only warn an empty arm unreachable if
// it is guaranteed unreachable by the opsem (i.e. if the place is `known_valid`).
let empty_arms_are_unreachable = place_validity.is_known_valid()
let empty_arms_are_unreachable = place.validity.is_known_valid()
&& (is_toplevel_exception
|| mcx.tycx.is_exhaustive_patterns_feature_on()
|| mcx.tycx.is_min_exhaustive_patterns_feature_on());
Expand All @@ -1504,7 +1522,7 @@ fn compute_exhaustiveness_and_usefulness<'a, 'p, Cx: TypeCx>(

// Decide what constructors to report.
let is_integers = matches!(ctors_for_ty, ConstructorSet::Integers { .. });
let always_report_all = is_top_level && !is_integers;
let always_report_all = place.is_scrutinee && !is_integers;
// Whether we should report "Enum::A and Enum::C are missing" or "_ is missing".
let report_individual_missing_ctors = always_report_all || !all_missing;
// Which constructors are considered missing. We ensure that `!missing_ctors.is_empty() =>
Expand All @@ -1525,7 +1543,7 @@ fn compute_exhaustiveness_and_usefulness<'a, 'p, Cx: TypeCx>(
let ctor_is_relevant = matches!(ctor, Constructor::Missing) || missing_ctors.is_empty();
let mut spec_matrix = matrix.specialize_constructor(pcx, &ctor, ctor_is_relevant)?;
let mut witnesses = ensure_sufficient_stack(|| {
compute_exhaustiveness_and_usefulness(mcx, &mut spec_matrix, false)
compute_exhaustiveness_and_usefulness(mcx, &mut spec_matrix)
})?;

// Transform witnesses for `spec_matrix` into witnesses for `matrix`.
Expand Down Expand Up @@ -1600,8 +1618,7 @@ pub fn compute_match_usefulness<'p, Cx: TypeCx>(
) -> Result<UsefulnessReport<'p, Cx>, Cx::Error> {
let cx = UsefulnessCtxt { tycx };
let mut matrix = Matrix::new(arms, scrut_ty, scrut_validity);
let non_exhaustiveness_witnesses =
compute_exhaustiveness_and_usefulness(cx, &mut matrix, true)?;
let non_exhaustiveness_witnesses = compute_exhaustiveness_and_usefulness(cx, &mut matrix)?;

let non_exhaustiveness_witnesses: Vec<_> = non_exhaustiveness_witnesses.single_column();
let arm_usefulness: Vec<_> = arms
Expand Down

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