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-rw-r--r--crates/ra_hir_ty/src/_match.rs74
1 files changed, 59 insertions, 15 deletions
diff --git a/crates/ra_hir_ty/src/_match.rs b/crates/ra_hir_ty/src/_match.rs
index f29a25505..9e9a9d047 100644
--- a/crates/ra_hir_ty/src/_match.rs
+++ b/crates/ra_hir_ty/src/_match.rs
@@ -235,7 +235,10 @@ impl From<PatId> for PatIdOrWild {
235} 235}
236 236
237#[derive(Debug, Clone, Copy, PartialEq)] 237#[derive(Debug, Clone, Copy, PartialEq)]
238pub struct MatchCheckNotImplemented; 238pub enum MatchCheckErr {
239 NotImplemented,
240 MalformedMatchArm,
241}
239 242
240/// The return type of `is_useful` is either an indication of usefulness 243/// The return type of `is_useful` is either an indication of usefulness
241/// of the match arm, or an error in the case the match statement 244/// of the match arm, or an error in the case the match statement
@@ -244,7 +247,7 @@ pub struct MatchCheckNotImplemented;
244/// 247///
245/// The `std::result::Result` type is used here rather than a custom enum 248/// The `std::result::Result` type is used here rather than a custom enum
246/// to allow the use of `?`. 249/// to allow the use of `?`.
247pub type MatchCheckResult<T> = Result<T, MatchCheckNotImplemented>; 250pub type MatchCheckResult<T> = Result<T, MatchCheckErr>;
248 251
249#[derive(Debug)] 252#[derive(Debug)]
250/// A row in a Matrix. 253/// A row in a Matrix.
@@ -335,12 +338,12 @@ impl PatStack {
335 Expr::Literal(Literal::Bool(_)) => None, 338 Expr::Literal(Literal::Bool(_)) => None,
336 // perhaps this is actually unreachable given we have 339 // perhaps this is actually unreachable given we have
337 // already checked that these match arms have the appropriate type? 340 // already checked that these match arms have the appropriate type?
338 _ => return Err(MatchCheckNotImplemented), 341 _ => return Err(MatchCheckErr::NotImplemented),
339 } 342 }
340 } 343 }
341 (Pat::Wild, constructor) => Some(self.expand_wildcard(cx, constructor)?), 344 (Pat::Wild, constructor) => Some(self.expand_wildcard(cx, constructor)?),
342 (Pat::Path(_), Constructor::Enum(constructor)) => { 345 (Pat::Path(_), Constructor::Enum(constructor)) => {
343 // enums with no associated data become `Pat::Path` 346 // unit enum variants become `Pat::Path`
344 let pat_id = self.head().as_id().expect("we know this isn't a wild"); 347 let pat_id = self.head().as_id().expect("we know this isn't a wild");
345 if !enum_variant_matches(cx, pat_id, *constructor) { 348 if !enum_variant_matches(cx, pat_id, *constructor) {
346 None 349 None
@@ -348,16 +351,23 @@ impl PatStack {
348 Some(self.to_tail()) 351 Some(self.to_tail())
349 } 352 }
350 } 353 }
351 (Pat::TupleStruct { args: ref pat_ids, .. }, Constructor::Enum(constructor)) => { 354 (Pat::TupleStruct { args: ref pat_ids, .. }, Constructor::Enum(enum_constructor)) => {
352 let pat_id = self.head().as_id().expect("we know this isn't a wild"); 355 let pat_id = self.head().as_id().expect("we know this isn't a wild");
353 if !enum_variant_matches(cx, pat_id, *constructor) { 356 if !enum_variant_matches(cx, pat_id, *enum_constructor) {
354 None 357 None
355 } else { 358 } else {
359 // If the enum variant matches, then we need to confirm
360 // that the number of patterns aligns with the expected
361 // number of patterns for that enum variant.
362 if pat_ids.len() != constructor.arity(cx)? {
363 return Err(MatchCheckErr::MalformedMatchArm);
364 }
365
356 Some(self.replace_head_with(pat_ids)) 366 Some(self.replace_head_with(pat_ids))
357 } 367 }
358 } 368 }
359 (Pat::Or(_), _) => return Err(MatchCheckNotImplemented), 369 (Pat::Or(_), _) => return Err(MatchCheckErr::NotImplemented),
360 (_, _) => return Err(MatchCheckNotImplemented), 370 (_, _) => return Err(MatchCheckErr::NotImplemented),
361 }; 371 };
362 372
363 Ok(result) 373 Ok(result)
@@ -514,7 +524,7 @@ pub(crate) fn is_useful(
514 return if any_useful { 524 return if any_useful {
515 Ok(Usefulness::Useful) 525 Ok(Usefulness::Useful)
516 } else if found_unimplemented { 526 } else if found_unimplemented {
517 Err(MatchCheckNotImplemented) 527 Err(MatchCheckErr::NotImplemented)
518 } else { 528 } else {
519 Ok(Usefulness::NotUseful) 529 Ok(Usefulness::NotUseful)
520 }; 530 };
@@ -567,7 +577,7 @@ pub(crate) fn is_useful(
567 } 577 }
568 578
569 if found_unimplemented { 579 if found_unimplemented {
570 Err(MatchCheckNotImplemented) 580 Err(MatchCheckErr::NotImplemented)
571 } else { 581 } else {
572 Ok(Usefulness::NotUseful) 582 Ok(Usefulness::NotUseful)
573 } 583 }
@@ -604,7 +614,7 @@ impl Constructor {
604 match cx.db.enum_data(e.parent).variants[e.local_id].variant_data.as_ref() { 614 match cx.db.enum_data(e.parent).variants[e.local_id].variant_data.as_ref() {
605 VariantData::Tuple(struct_field_data) => struct_field_data.len(), 615 VariantData::Tuple(struct_field_data) => struct_field_data.len(),
606 VariantData::Unit => 0, 616 VariantData::Unit => 0,
607 _ => return Err(MatchCheckNotImplemented), 617 _ => return Err(MatchCheckErr::NotImplemented),
608 } 618 }
609 } 619 }
610 }; 620 };
@@ -637,20 +647,20 @@ fn pat_constructor(cx: &MatchCheckCtx, pat: PatIdOrWild) -> MatchCheckResult<Opt
637 Pat::Tuple(pats) => Some(Constructor::Tuple { arity: pats.len() }), 647 Pat::Tuple(pats) => Some(Constructor::Tuple { arity: pats.len() }),
638 Pat::Lit(lit_expr) => match cx.body.exprs[lit_expr] { 648 Pat::Lit(lit_expr) => match cx.body.exprs[lit_expr] {
639 Expr::Literal(Literal::Bool(val)) => Some(Constructor::Bool(val)), 649 Expr::Literal(Literal::Bool(val)) => Some(Constructor::Bool(val)),
640 _ => return Err(MatchCheckNotImplemented), 650 _ => return Err(MatchCheckErr::NotImplemented),
641 }, 651 },
642 Pat::TupleStruct { .. } | Pat::Path(_) => { 652 Pat::TupleStruct { .. } | Pat::Path(_) => {
643 let pat_id = pat.as_id().expect("we already know this pattern is not a wild"); 653 let pat_id = pat.as_id().expect("we already know this pattern is not a wild");
644 let variant_id = 654 let variant_id =
645 cx.infer.variant_resolution_for_pat(pat_id).ok_or(MatchCheckNotImplemented)?; 655 cx.infer.variant_resolution_for_pat(pat_id).ok_or(MatchCheckErr::NotImplemented)?;
646 match variant_id { 656 match variant_id {
647 VariantId::EnumVariantId(enum_variant_id) => { 657 VariantId::EnumVariantId(enum_variant_id) => {
648 Some(Constructor::Enum(enum_variant_id)) 658 Some(Constructor::Enum(enum_variant_id))
649 } 659 }
650 _ => return Err(MatchCheckNotImplemented), 660 _ => return Err(MatchCheckErr::NotImplemented),
651 } 661 }
652 } 662 }
653 _ => return Err(MatchCheckNotImplemented), 663 _ => return Err(MatchCheckErr::NotImplemented),
654 }; 664 };
655 665
656 Ok(res) 666 Ok(res)
@@ -1325,6 +1335,40 @@ mod tests {
1325 } 1335 }
1326 1336
1327 #[test] 1337 #[test]
1338 fn malformed_match_arm_tuple_missing_pattern() {
1339 let content = r"
1340 fn test_fn() {
1341 match (0) {
1342 () => (),
1343 }
1344 }
1345 ";
1346
1347 // Match arms with the incorrect type are filtered out.
1348 check_diagnostic(content);
1349 }
1350
1351 #[test]
1352 fn malformed_match_arm_tuple_enum_missing_pattern() {
1353 let content = r"
1354 enum Either {
1355 A,
1356 B(u32),
1357 }
1358 fn test_fn() {
1359 match Either::A {
1360 Either::A => (),
1361 Either::B() => (),
1362 }
1363 }
1364 ";
1365
1366 // We are testing to be sure we don't panic here when the match
1367 // arm `Either::B` is missing its pattern.
1368 check_no_diagnostic(content);
1369 }
1370
1371 #[test]
1328 fn enum_not_in_scope() { 1372 fn enum_not_in_scope() {
1329 let content = r" 1373 let content = r"
1330 fn test_fn() { 1374 fn test_fn() {