forked from M-Labs/nac3
core/typecheck: Basic ndarray indexing support
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72cb693e2e
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@ -1156,6 +1156,7 @@ impl<'a> Inferencer<'a> {
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for v in [lower.as_ref(), upper.as_ref(), step.as_ref()].iter().flatten() {
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self.constrain(v.custom.unwrap(), self.primitives.int32, &v.location)?;
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}
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// xxx: Support TNDArray.
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let list = self.unifier.add_ty(TypeEnum::TList { ty });
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self.constrain(value.custom.unwrap(), list, &value.location)?;
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Ok(list)
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@ -1174,17 +1175,59 @@ impl<'a> Inferencer<'a> {
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Ok(ty)
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}
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_ => {
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if let TypeEnum::TTuple { .. } = &*self.unifier.get_ty(value.custom.unwrap()) {
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return report_error(
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match &*self.unifier.get_ty(value.custom.unwrap()) {
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TypeEnum::TTuple { .. } => return report_error(
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"Tuple index must be a constant (KernelInvariant is also not supported)",
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slice.location,
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);
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),
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TypeEnum::TNDArray { ty: elem_ty, num_dims } => {
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let num_idxs = if let TypeEnum::TTuple { ty: idx_tys } =
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&*self.unifier.get_ty(slice.custom.unwrap())
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{
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for idx_ty in idx_tys.iter() {
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self.constrain(*idx_ty, self.primitives.int32, &slice.location)?;
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}
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idx_tys.len()
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} else {
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// xxx: Could lead to suboptimal error message, as higher-dimensional indexing is not mentioned?!
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self.constrain(
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slice.custom.unwrap(),
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self.primitives.int32,
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&slice.location,
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)?;
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1
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};
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if *num_dims < num_idxs {
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report_error(
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&format!(
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"ndarray has dimension {}, but {} indices supplied",
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num_dims, num_idxs
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),
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slice.location,
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)
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} else if *num_dims == num_idxs {
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Ok(*elem_ty)
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} else {
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Ok(self.unifier.add_ty(TypeEnum::TNDArray {
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ty: *elem_ty,
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num_dims: *num_dims - num_idxs,
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}))
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}
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}
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_ => {
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// the index is not a constant, so value can only be a list
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// xxx: Or an ndarray now, so remove the constraint?
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self.constrain(
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slice.custom.unwrap(),
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self.primitives.int32,
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&slice.location,
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)?;
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let list = self.unifier.add_ty(TypeEnum::TList { ty });
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self.constrain(value.custom.unwrap(), list, &value.location)?;
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Ok(ty)
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}
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}
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// the index is not a constant, so value can only be a list
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self.constrain(slice.custom.unwrap(), self.primitives.int32, &slice.location)?;
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let list = self.unifier.add_ty(TypeEnum::TList { ty });
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self.constrain(value.custom.unwrap(), list, &value.location)?;
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Ok(ty)
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}
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}
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}
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@ -516,9 +516,14 @@ impl TestEnvironment {
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#[test_case(
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indoc! {"
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a = array([1, 2])
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a0 = a[0]
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b = array([[1, 2], [3, 4]])
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# b0 = b[0]
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b00 = b[0, 0]
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c = 1
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ac = a[c]
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"},
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[("a", "ndarray[int32, 1]"), ("b", "ndarray[int32, 2]")].iter().cloned().collect(),
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[("a", "ndarray[int32, 1]"), ("b", "ndarray[int32, 2]"), ("a0", "int32"), ("b00", "int32"), ("ac", "int32")].iter().cloned().collect(),
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&[]
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; "array test")]
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#[test_case(indoc! {"
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@ -139,7 +139,10 @@ pub enum TypeEnum {
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},
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TNDArray {
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ty: Type,
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num_dims: u8,
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// We could introduce a more sensible limit for the number of dimensions
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// and make this e.g. u8; usize for now to avoid some casts.
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num_dims: usize,
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},
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TObj {
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obj_id: DefinitionId,
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@ -655,6 +658,24 @@ impl Unifier {
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self.unify_impl(x, b, false)?;
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self.set_a_to_b(a, x);
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}
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(TVar { fields: Some(fields), range, .. }, TNDArray { ty, num_dims }) => {
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for (k, v) in fields.iter() {
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match *k {
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RecordKey::Int(_) => {
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if *num_dims > 1 {
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unreachable!("xxx implement unification for scalar indexing of multidimensional array");
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}
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self.unify_impl(v.ty, *ty, false).map_err(|e| e.at(v.loc))?
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}
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RecordKey::Str(_) => {
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return Err(TypeError::new(TypeErrorKind::NoSuchField(*k, b), v.loc))
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}
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}
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}
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let x = self.check_var_compatibility(b, range)?.unwrap_or(b);
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self.unify_impl(x, b, false)?;
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self.set_a_to_b(a, x);
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}
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(TTuple { ty: ty1 }, TTuple { ty: ty2 }) => {
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if ty1.len() != ty2.len() {
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return Err(TypeError::new(TypeErrorKind::IncompatibleTypes(a, b), None));
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