Perform type inference in range pattern

This commit is contained in:
Gary Guo 2021-08-16 20:53:40 +01:00
parent 497ee321af
commit d8dae4f8e5
3 changed files with 44 additions and 28 deletions

View File

@ -448,16 +448,22 @@ fn check_pat_range(
ti: TopInfo<'tcx>,
) -> Ty<'tcx> {
let calc_side = |opt_expr: Option<&'tcx hir::Expr<'tcx>>| match opt_expr {
None => (None, None),
None => None,
Some(expr) => {
let ty = self.check_expr(expr);
// Check that the end-point is of numeric or char type.
let fail = !(ty.is_numeric() || ty.is_char() || ty.references_error());
(Some(ty), Some((fail, ty, expr.span)))
// Check that the end-point is possibly of numeric or char type.
// The early check here is not for correctness, but rather better
// diagnostics (e.g. when `&str` is being matched, `expected` will
// be peeled to `str` while ty here is still `&str`, if we don't
// err ealy here, a rather confusing unification error will be
// emitted instead).
let fail =
!(ty.is_numeric() || ty.is_char() || ty.is_ty_var() || ty.references_error());
Some((fail, ty, expr.span))
}
};
let (lhs_ty, lhs) = calc_side(lhs);
let (rhs_ty, rhs) = calc_side(rhs);
let mut lhs = calc_side(lhs);
let mut rhs = calc_side(rhs);
if let (Some((true, ..)), _) | (_, Some((true, ..))) = (lhs, rhs) {
// There exists a side that didn't meet our criteria that the end-point
@ -466,25 +472,42 @@ fn check_pat_range(
return self.tcx.ty_error();
}
// Now that we know the types can be unified we find the unified type
// and use it to type the entire expression.
let common_type = self.resolve_vars_if_possible(lhs_ty.or(rhs_ty).unwrap_or(expected));
// Unify each side with `expected`.
// Subtyping doesn't matter here, as the value is some kind of scalar.
let demand_eqtype = |x, y| {
if let Some((_, x_ty, x_span)) = x {
let demand_eqtype = |x: &mut _, y| {
if let Some((ref mut fail, x_ty, x_span)) = *x {
if let Some(mut err) = self.demand_eqtype_pat_diag(x_span, expected, x_ty, ti) {
if let Some((_, y_ty, y_span)) = y {
self.endpoint_has_type(&mut err, y_span, y_ty);
}
err.emit();
*fail = true;
};
}
};
demand_eqtype(lhs, rhs);
demand_eqtype(rhs, lhs);
demand_eqtype(&mut lhs, rhs);
demand_eqtype(&mut rhs, lhs);
common_type
if let (Some((true, ..)), _) | (_, Some((true, ..))) = (lhs, rhs) {
return self.tcx.ty_error();
}
// Find the unified type and check if it's of numeric or char type again.
// This check is needed if both sides are inference variables.
// We require types to be resolved here so that we emit inference failure
// rather than "_ is not a char or numeric".
let ty = self.structurally_resolved_type(span, expected);
if !(ty.is_numeric() || ty.is_char() || ty.references_error()) {
if let Some((ref mut fail, _, _)) = lhs {
*fail = true;
}
if let Some((ref mut fail, _, _)) = rhs {
*fail = true;
}
self.emit_err_pat_range(span, lhs, rhs);
return self.tcx.ty_error();
}
ty
}
fn endpoint_has_type(&self, err: &mut DiagnosticBuilder<'_>, span: Span, ty: Ty<'_>) {
@ -511,10 +534,14 @@ fn emit_err_pat_range(
E0029,
"only `char` and numeric types are allowed in range patterns"
);
let msg = |ty| format!("this is of type `{}` but it should be `char` or numeric", ty);
let msg = |ty| {
let ty = self.resolve_vars_if_possible(ty);
format!("this is of type `{}` but it should be `char` or numeric", ty)
};
let mut one_side_err = |first_span, first_ty, second: Option<(bool, Ty<'tcx>, Span)>| {
err.span_label(first_span, &msg(first_ty));
if let Some((_, ty, sp)) = second {
let ty = self.resolve_vars_if_possible(ty);
self.endpoint_has_type(&mut err, sp, ty);
}
};

View File

@ -19,7 +19,6 @@ fn foo(value: i32) -> Option<$name> {
Neg = -1,
Arith = 1 + 1, //~ ERROR arbitrary expressions aren't allowed in patterns
//~| ERROR arbitrary expressions aren't allowed in patterns
//~| ERROR only `char` and numeric types are allowed in range patterns
});
fn main() {}

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@ -10,15 +10,5 @@ error: arbitrary expressions aren't allowed in patterns
LL | Arith = 1 + 1,
| ^^^^^
error[E0029]: only `char` and numeric types are allowed in range patterns
--> $DIR/patkind-litrange-no-expr.rs:20:13
|
LL | $( $value ..= 42 => Some($name::$variant), )* // PatKind::Range
| -- this is of type `{integer}`
...
LL | Arith = 1 + 1,
| ^^^^^ this is of type `_` but it should be `char` or numeric
error: aborting due to 2 previous errors
error: aborting due to 3 previous errors
For more information about this error, try `rustc --explain E0029`.