diff options
author | Dawer <[email protected]> | 2021-05-11 13:18:16 +0100 |
---|---|---|
committer | Dawer <[email protected]> | 2021-05-31 20:23:09 +0100 |
commit | e84efc4a4656e54a4f08b99592d5d98ac5726449 (patch) | |
tree | 7f21f05a7eb6cbef32ca9c081e19f9f0c2392567 | |
parent | 894b4c64ffdb280a38c1ea2e9be145ca308965fd (diff) |
Replace the old match checking algorithm
-rw-r--r-- | crates/hir_ty/src/diagnostics.rs | 2 | ||||
-rw-r--r-- | crates/hir_ty/src/diagnostics/expr.rs | 119 | ||||
-rw-r--r-- | crates/hir_ty/src/diagnostics/match_check.rs | 1077 | ||||
-rw-r--r-- | crates/hir_ty/src/diagnostics/match_check/deconstruct_pat.rs (renamed from crates/hir_ty/src/diagnostics/pattern/deconstruct_pat.rs) | 0 | ||||
-rw-r--r-- | crates/hir_ty/src/diagnostics/match_check/pat_util.rs (renamed from crates/hir_ty/src/diagnostics/pattern/pat_util.rs) | 0 | ||||
-rw-r--r-- | crates/hir_ty/src/diagnostics/match_check/usefulness.rs (renamed from crates/hir_ty/src/diagnostics/pattern/usefulness.rs) | 0 | ||||
-rw-r--r-- | crates/hir_ty/src/diagnostics/pattern.rs | 1040 |
7 files changed, 311 insertions, 1927 deletions
diff --git a/crates/hir_ty/src/diagnostics.rs b/crates/hir_ty/src/diagnostics.rs index 87a3594c5..283894704 100644 --- a/crates/hir_ty/src/diagnostics.rs +++ b/crates/hir_ty/src/diagnostics.rs | |||
@@ -1,8 +1,6 @@ | |||
1 | //! Type inference-based diagnostics. | 1 | //! Type inference-based diagnostics. |
2 | mod expr; | 2 | mod expr; |
3 | #[allow(unused)] //todo | ||
4 | mod match_check; | 3 | mod match_check; |
5 | mod pattern; | ||
6 | mod unsafe_check; | 4 | mod unsafe_check; |
7 | mod decl_check; | 5 | mod decl_check; |
8 | 6 | ||
diff --git a/crates/hir_ty/src/diagnostics/expr.rs b/crates/hir_ty/src/diagnostics/expr.rs index b321004ac..c6015d236 100644 --- a/crates/hir_ty/src/diagnostics/expr.rs +++ b/crates/hir_ty/src/diagnostics/expr.rs | |||
@@ -4,7 +4,9 @@ | |||
4 | 4 | ||
5 | use std::{cell::RefCell, sync::Arc}; | 5 | use std::{cell::RefCell, sync::Arc}; |
6 | 6 | ||
7 | use hir_def::{expr::Statement, path::path, resolver::HasResolver, AssocItemId, DefWithBodyId}; | 7 | use hir_def::{ |
8 | expr::Statement, path::path, resolver::HasResolver, AssocItemId, DefWithBodyId, HasModule, | ||
9 | }; | ||
8 | use hir_expand::name; | 10 | use hir_expand::name; |
9 | use rustc_hash::FxHashSet; | 11 | use rustc_hash::FxHashSet; |
10 | use syntax::{ast, AstPtr}; | 12 | use syntax::{ast, AstPtr}; |
@@ -12,7 +14,10 @@ use syntax::{ast, AstPtr}; | |||
12 | use crate::{ | 14 | use crate::{ |
13 | db::HirDatabase, | 15 | db::HirDatabase, |
14 | diagnostics::{ | 16 | diagnostics::{ |
15 | match_check::{is_useful, MatchCheckCtx, Matrix, PatStack, Usefulness}, | 17 | match_check::{ |
18 | self, | ||
19 | usefulness::{compute_match_usefulness, expand_pattern, MatchCheckCtx, PatternArena}, | ||
20 | }, | ||
16 | MismatchedArgCount, MissingFields, MissingMatchArms, MissingOkOrSomeInTailExpr, | 21 | MismatchedArgCount, MissingFields, MissingMatchArms, MissingOkOrSomeInTailExpr, |
17 | MissingPatFields, RemoveThisSemicolon, | 22 | MissingPatFields, RemoveThisSemicolon, |
18 | }, | 23 | }, |
@@ -26,13 +31,7 @@ pub(crate) use hir_def::{ | |||
26 | LocalFieldId, VariantId, | 31 | LocalFieldId, VariantId, |
27 | }; | 32 | }; |
28 | 33 | ||
29 | use super::{ | 34 | use super::ReplaceFilterMapNextWithFindMap; |
30 | pattern::{ | ||
31 | self, | ||
32 | usefulness::{expand_pattern, PatternArena}, | ||
33 | }, | ||
34 | ReplaceFilterMapNextWithFindMap, | ||
35 | }; | ||
36 | 35 | ||
37 | pub(super) struct ExprValidator<'a, 'b: 'a> { | 36 | pub(super) struct ExprValidator<'a, 'b: 'a> { |
38 | owner: DefWithBodyId, | 37 | owner: DefWithBodyId, |
@@ -68,7 +67,7 @@ impl<'a, 'b> ExprValidator<'a, 'b> { | |||
68 | 67 | ||
69 | match expr { | 68 | match expr { |
70 | Expr::Match { expr, arms } => { | 69 | Expr::Match { expr, arms } => { |
71 | self.validate_match2(id, *expr, arms, db, self.infer.clone()); | 70 | self.validate_match(id, *expr, arms, db, self.infer.clone()); |
72 | } | 71 | } |
73 | Expr::Call { .. } | Expr::MethodCall { .. } => { | 72 | Expr::Call { .. } | Expr::MethodCall { .. } => { |
74 | self.validate_call(db, id, expr); | 73 | self.validate_call(db, id, expr); |
@@ -283,7 +282,6 @@ impl<'a, 'b> ExprValidator<'a, 'b> { | |||
283 | } | 282 | } |
284 | } | 283 | } |
285 | 284 | ||
286 | #[allow(dead_code)] | ||
287 | fn validate_match( | 285 | fn validate_match( |
288 | &mut self, | 286 | &mut self, |
289 | id: ExprId, | 287 | id: ExprId, |
@@ -301,90 +299,6 @@ impl<'a, 'b> ExprValidator<'a, 'b> { | |||
301 | &infer.type_of_expr[match_expr] | 299 | &infer.type_of_expr[match_expr] |
302 | }; | 300 | }; |
303 | 301 | ||
304 | let cx = MatchCheckCtx { match_expr, body, infer: infer.clone(), db }; | ||
305 | let pats = arms.iter().map(|arm| arm.pat); | ||
306 | |||
307 | let mut seen = Matrix::empty(); | ||
308 | for pat in pats { | ||
309 | if let Some(pat_ty) = infer.type_of_pat.get(pat) { | ||
310 | // We only include patterns whose type matches the type | ||
311 | // of the match expression. If we had a InvalidMatchArmPattern | ||
312 | // diagnostic or similar we could raise that in an else | ||
313 | // block here. | ||
314 | // | ||
315 | // When comparing the types, we also have to consider that rustc | ||
316 | // will automatically de-reference the match expression type if | ||
317 | // necessary. | ||
318 | // | ||
319 | // FIXME we should use the type checker for this. | ||
320 | if (pat_ty == match_expr_ty | ||
321 | || match_expr_ty | ||
322 | .as_reference() | ||
323 | .map(|(match_expr_ty, ..)| match_expr_ty == pat_ty) | ||
324 | .unwrap_or(false)) | ||
325 | && types_of_subpatterns_do_match(pat, &cx.body, &infer) | ||
326 | { | ||
327 | // If we had a NotUsefulMatchArm diagnostic, we could | ||
328 | // check the usefulness of each pattern as we added it | ||
329 | // to the matrix here. | ||
330 | let v = PatStack::from_pattern(pat); | ||
331 | seen.push(&cx, v); | ||
332 | continue; | ||
333 | } | ||
334 | } | ||
335 | |||
336 | // If we can't resolve the type of a pattern, or the pattern type doesn't | ||
337 | // fit the match expression, we skip this diagnostic. Skipping the entire | ||
338 | // diagnostic rather than just not including this match arm is preferred | ||
339 | // to avoid the chance of false positives. | ||
340 | return; | ||
341 | } | ||
342 | |||
343 | match is_useful(&cx, &seen, &PatStack::from_wild()) { | ||
344 | Ok(Usefulness::Useful) => (), | ||
345 | // if a wildcard pattern is not useful, then all patterns are covered | ||
346 | Ok(Usefulness::NotUseful) => return, | ||
347 | // this path is for unimplemented checks, so we err on the side of not | ||
348 | // reporting any errors | ||
349 | _ => return, | ||
350 | } | ||
351 | |||
352 | if let Ok(source_ptr) = source_map.expr_syntax(id) { | ||
353 | let root = source_ptr.file_syntax(db.upcast()); | ||
354 | if let ast::Expr::MatchExpr(match_expr) = &source_ptr.value.to_node(&root) { | ||
355 | if let (Some(match_expr), Some(arms)) = | ||
356 | (match_expr.expr(), match_expr.match_arm_list()) | ||
357 | { | ||
358 | self.sink.push(MissingMatchArms { | ||
359 | file: source_ptr.file_id, | ||
360 | match_expr: AstPtr::new(&match_expr), | ||
361 | arms: AstPtr::new(&arms), | ||
362 | }) | ||
363 | } | ||
364 | } | ||
365 | } | ||
366 | } | ||
367 | |||
368 | fn validate_match2( | ||
369 | &mut self, | ||
370 | id: ExprId, | ||
371 | match_expr: ExprId, | ||
372 | arms: &[MatchArm], | ||
373 | db: &dyn HirDatabase, | ||
374 | infer: Arc<InferenceResult>, | ||
375 | ) { | ||
376 | use crate::diagnostics::pattern::usefulness; | ||
377 | use hir_def::HasModule; | ||
378 | |||
379 | let (body, source_map): (Arc<Body>, Arc<BodySourceMap>) = | ||
380 | db.body_with_source_map(self.owner); | ||
381 | |||
382 | let match_expr_ty = if infer.type_of_expr[match_expr].is_unknown() { | ||
383 | return; | ||
384 | } else { | ||
385 | &infer.type_of_expr[match_expr] | ||
386 | }; | ||
387 | |||
388 | let pattern_arena = RefCell::new(PatternArena::new()); | 302 | let pattern_arena = RefCell::new(PatternArena::new()); |
389 | 303 | ||
390 | let mut m_arms = Vec::new(); | 304 | let mut m_arms = Vec::new(); |
@@ -401,16 +315,17 @@ impl<'a, 'b> ExprValidator<'a, 'b> { | |||
401 | // necessary. | 315 | // necessary. |
402 | // | 316 | // |
403 | // FIXME we should use the type checker for this. | 317 | // FIXME we should use the type checker for this. |
404 | if pat_ty == match_expr_ty | 318 | if (pat_ty == match_expr_ty |
405 | || match_expr_ty | 319 | || match_expr_ty |
406 | .as_reference() | 320 | .as_reference() |
407 | .map(|(match_expr_ty, ..)| match_expr_ty == pat_ty) | 321 | .map(|(match_expr_ty, ..)| match_expr_ty == pat_ty) |
408 | .unwrap_or(false) | 322 | .unwrap_or(false)) |
323 | && types_of_subpatterns_do_match(arm.pat, &body, &infer) | ||
409 | { | 324 | { |
410 | // If we had a NotUsefulMatchArm diagnostic, we could | 325 | // If we had a NotUsefulMatchArm diagnostic, we could |
411 | // check the usefulness of each pattern as we added it | 326 | // check the usefulness of each pattern as we added it |
412 | // to the matrix here. | 327 | // to the matrix here. |
413 | let m_arm = usefulness::MatchArm { | 328 | let m_arm = match_check::MatchArm { |
414 | pat: self.lower_pattern( | 329 | pat: self.lower_pattern( |
415 | arm.pat, | 330 | arm.pat, |
416 | &mut pattern_arena.borrow_mut(), | 331 | &mut pattern_arena.borrow_mut(), |
@@ -434,14 +349,14 @@ impl<'a, 'b> ExprValidator<'a, 'b> { | |||
434 | return; | 349 | return; |
435 | } | 350 | } |
436 | 351 | ||
437 | let cx = usefulness::MatchCheckCtx { | 352 | let cx = MatchCheckCtx { |
438 | module: self.owner.module(db.upcast()), | 353 | module: self.owner.module(db.upcast()), |
439 | match_expr, | 354 | match_expr, |
440 | infer: &infer, | 355 | infer: &infer, |
441 | db, | 356 | db, |
442 | pattern_arena: &pattern_arena, | 357 | pattern_arena: &pattern_arena, |
443 | }; | 358 | }; |
444 | let report = usefulness::compute_match_usefulness(&cx, &m_arms); | 359 | let report = compute_match_usefulness(&cx, &m_arms); |
445 | 360 | ||
446 | // FIXME Report unreacheble arms | 361 | // FIXME Report unreacheble arms |
447 | // https://github.com/rust-lang/rust/blob/25c15cdbe/compiler/rustc_mir_build/src/thir/pattern/check_match.rs#L200-L201 | 362 | // https://github.com/rust-lang/rust/blob/25c15cdbe/compiler/rustc_mir_build/src/thir/pattern/check_match.rs#L200-L201 |
@@ -473,8 +388,8 @@ impl<'a, 'b> ExprValidator<'a, 'b> { | |||
473 | db: &dyn HirDatabase, | 388 | db: &dyn HirDatabase, |
474 | body: &Body, | 389 | body: &Body, |
475 | have_errors: &mut bool, | 390 | have_errors: &mut bool, |
476 | ) -> pattern::PatId { | 391 | ) -> match_check::PatId { |
477 | let mut patcx = pattern::PatCtxt::new(db, &self.infer, body); | 392 | let mut patcx = match_check::PatCtxt::new(db, &self.infer, body); |
478 | let pattern = patcx.lower_pattern(pat); | 393 | let pattern = patcx.lower_pattern(pat); |
479 | let pattern = pattern_arena.alloc(expand_pattern(pattern)); | 394 | let pattern = pattern_arena.alloc(expand_pattern(pattern)); |
480 | if !patcx.errors.is_empty() { | 395 | if !patcx.errors.is_empty() { |
diff --git a/crates/hir_ty/src/diagnostics/match_check.rs b/crates/hir_ty/src/diagnostics/match_check.rs index 52e9a5b1b..aebadd391 100644 --- a/crates/hir_ty/src/diagnostics/match_check.rs +++ b/crates/hir_ty/src/diagnostics/match_check.rs | |||
@@ -1,864 +1,340 @@ | |||
1 | //! This module implements match statement exhaustiveness checking and usefulness checking | 1 | //! Validation of matches. |
2 | //! for match arms. | ||
3 | //! | 2 | //! |
4 | //! It is modeled on the rustc module `librustc_mir_build::hair::pattern::_match`, which | 3 | //! This module provides lowering from [hir_def::expr::Pat] to [self::Pat] and match |
5 | //! contains very detailed documentation about the algorithms used here. I've duplicated | 4 | //! checking algorithm. |
6 | //! most of that documentation below. | ||
7 | //! | 5 | //! |
8 | //! This file includes the logic for exhaustiveness and usefulness checking for | 6 | //! It is modeled on the rustc module `rustc_mir_build::thir::pattern`. |
9 | //! pattern-matching. Specifically, given a list of patterns for a type, we can | 7 | |
10 | //! tell whether: | 8 | mod deconstruct_pat; |
11 | //! - (a) the patterns cover every possible constructor for the type (exhaustiveness). | 9 | mod pat_util; |
12 | //! - (b) each pattern is necessary (usefulness). | 10 | pub(crate) mod usefulness; |
13 | //! | 11 | |
14 | //! The algorithm implemented here is a modified version of the one described in | 12 | use hir_def::{body::Body, EnumVariantId, LocalFieldId, VariantId}; |
15 | //! <http://moscova.inria.fr/~maranget/papers/warn/index.html>. | ||
16 | //! However, to save future implementors from reading the original paper, we | ||
17 | //! summarize the algorithm here to hopefully save time and be a little clearer | ||
18 | //! (without being so rigorous). | ||
19 | //! | ||
20 | //! The core of the algorithm revolves about a "usefulness" check. In particular, we | ||
21 | //! are trying to compute a predicate `U(P, p)` where `P` is a list of patterns (we refer to this as | ||
22 | //! a matrix). `U(P, p)` represents whether, given an existing list of patterns | ||
23 | //! `P_1 ..= P_m`, adding a new pattern `p` will be "useful" (that is, cover previously- | ||
24 | //! uncovered values of the type). | ||
25 | //! | ||
26 | //! If we have this predicate, then we can easily compute both exhaustiveness of an | ||
27 | //! entire set of patterns and the individual usefulness of each one. | ||
28 | //! (a) the set of patterns is exhaustive iff `U(P, _)` is false (i.e., adding a wildcard | ||
29 | //! match doesn't increase the number of values we're matching) | ||
30 | //! (b) a pattern `P_i` is not useful if `U(P[0..=(i-1), P_i)` is false (i.e., adding a | ||
31 | //! pattern to those that have come before it doesn't increase the number of values | ||
32 | //! we're matching). | ||
33 | //! | ||
34 | //! During the course of the algorithm, the rows of the matrix won't just be individual patterns, | ||
35 | //! but rather partially-deconstructed patterns in the form of a list of patterns. The paper | ||
36 | //! calls those pattern-vectors, and we will call them pattern-stacks. The same holds for the | ||
37 | //! new pattern `p`. | ||
38 | //! | ||
39 | //! For example, say we have the following: | ||
40 | //! | ||
41 | //! ```ignore | ||
42 | //! // x: (Option<bool>, Result<()>) | ||
43 | //! match x { | ||
44 | //! (Some(true), _) => (), | ||
45 | //! (None, Err(())) => (), | ||
46 | //! (None, Err(_)) => (), | ||
47 | //! } | ||
48 | //! ``` | ||
49 | //! | ||
50 | //! Here, the matrix `P` starts as: | ||
51 | //! | ||
52 | //! ```text | ||
53 | //! [ | ||
54 | //! [(Some(true), _)], | ||
55 | //! [(None, Err(()))], | ||
56 | //! [(None, Err(_))], | ||
57 | //! ] | ||
58 | //! ``` | ||
59 | //! | ||
60 | //! We can tell it's not exhaustive, because `U(P, _)` is true (we're not covering | ||
61 | //! `[(Some(false), _)]`, for instance). In addition, row 3 is not useful, because | ||
62 | //! all the values it covers are already covered by row 2. | ||
63 | //! | ||
64 | //! A list of patterns can be thought of as a stack, because we are mainly interested in the top of | ||
65 | //! the stack at any given point, and we can pop or apply constructors to get new pattern-stacks. | ||
66 | //! To match the paper, the top of the stack is at the beginning / on the left. | ||
67 | //! | ||
68 | //! There are two important operations on pattern-stacks necessary to understand the algorithm: | ||
69 | //! | ||
70 | //! 1. We can pop a given constructor off the top of a stack. This operation is called | ||
71 | //! `specialize`, and is denoted `S(c, p)` where `c` is a constructor (like `Some` or | ||
72 | //! `None`) and `p` a pattern-stack. | ||
73 | //! If the pattern on top of the stack can cover `c`, this removes the constructor and | ||
74 | //! pushes its arguments onto the stack. It also expands OR-patterns into distinct patterns. | ||
75 | //! Otherwise the pattern-stack is discarded. | ||
76 | //! This essentially filters those pattern-stacks whose top covers the constructor `c` and | ||
77 | //! discards the others. | ||
78 | //! | ||
79 | //! For example, the first pattern above initially gives a stack `[(Some(true), _)]`. If we | ||
80 | //! pop the tuple constructor, we are left with `[Some(true), _]`, and if we then pop the | ||
81 | //! `Some` constructor we get `[true, _]`. If we had popped `None` instead, we would get | ||
82 | //! nothing back. | ||
83 | //! | ||
84 | //! This returns zero or more new pattern-stacks, as follows. We look at the pattern `p_1` | ||
85 | //! on top of the stack, and we have four cases: | ||
86 | //! | ||
87 | //! * 1.1. `p_1 = c(r_1, .., r_a)`, i.e. the top of the stack has constructor `c`. We push onto | ||
88 | //! the stack the arguments of this constructor, and return the result: | ||
89 | //! | ||
90 | //! r_1, .., r_a, p_2, .., p_n | ||
91 | //! | ||
92 | //! * 1.2. `p_1 = c'(r_1, .., r_a')` where `c ≠c'`. We discard the current stack and return | ||
93 | //! nothing. | ||
94 | //! * 1.3. `p_1 = _`. We push onto the stack as many wildcards as the constructor `c` has | ||
95 | //! arguments (its arity), and return the resulting stack: | ||
96 | //! | ||
97 | //! _, .., _, p_2, .., p_n | ||
98 | //! | ||
99 | //! * 1.4. `p_1 = r_1 | r_2`. We expand the OR-pattern and then recurse on each resulting stack: | ||
100 | //! | ||
101 | //! S(c, (r_1, p_2, .., p_n)) | ||
102 | //! S(c, (r_2, p_2, .., p_n)) | ||
103 | //! | ||
104 | //! 2. We can pop a wildcard off the top of the stack. This is called `D(p)`, where `p` is | ||
105 | //! a pattern-stack. | ||
106 | //! This is used when we know there are missing constructor cases, but there might be | ||
107 | //! existing wildcard patterns, so to check the usefulness of the matrix, we have to check | ||
108 | //! all its *other* components. | ||
109 | //! | ||
110 | //! It is computed as follows. We look at the pattern `p_1` on top of the stack, | ||
111 | //! and we have three cases: | ||
112 | //! * 1.1. `p_1 = c(r_1, .., r_a)`. We discard the current stack and return nothing. | ||
113 | //! * 1.2. `p_1 = _`. We return the rest of the stack: | ||
114 | //! | ||
115 | //! p_2, .., p_n | ||
116 | //! | ||
117 | //! * 1.3. `p_1 = r_1 | r_2`. We expand the OR-pattern and then recurse on each resulting stack: | ||
118 | //! | ||
119 | //! D((r_1, p_2, .., p_n)) | ||
120 | //! D((r_2, p_2, .., p_n)) | ||
121 | //! | ||
122 | //! Note that the OR-patterns are not always used directly in Rust, but are used to derive the | ||
123 | //! exhaustive integer matching rules, so they're written here for posterity. | ||
124 | //! | ||
125 | //! Both those operations extend straightforwardly to a list or pattern-stacks, i.e. a matrix, by | ||
126 | //! working row-by-row. Popping a constructor ends up keeping only the matrix rows that start with | ||
127 | //! the given constructor, and popping a wildcard keeps those rows that start with a wildcard. | ||
128 | //! | ||
129 | //! | ||
130 | //! The algorithm for computing `U` | ||
131 | //! ------------------------------- | ||
132 | //! The algorithm is inductive (on the number of columns: i.e., components of tuple patterns). | ||
133 | //! That means we're going to check the components from left-to-right, so the algorithm | ||
134 | //! operates principally on the first component of the matrix and new pattern-stack `p`. | ||
135 | //! This algorithm is realized in the `is_useful` function. | ||
136 | //! | ||
137 | //! Base case (`n = 0`, i.e., an empty tuple pattern): | ||
138 | //! - If `P` already contains an empty pattern (i.e., if the number of patterns `m > 0`), then | ||
139 | //! `U(P, p)` is false. | ||
140 | //! - Otherwise, `P` must be empty, so `U(P, p)` is true. | ||
141 | //! | ||
142 | //! Inductive step (`n > 0`, i.e., whether there's at least one column [which may then be expanded | ||
143 | //! into further columns later]). We're going to match on the top of the new pattern-stack, `p_1`: | ||
144 | //! | ||
145 | //! - If `p_1 == c(r_1, .., r_a)`, i.e. we have a constructor pattern. | ||
146 | //! Then, the usefulness of `p_1` can be reduced to whether it is useful when | ||
147 | //! we ignore all the patterns in the first column of `P` that involve other constructors. | ||
148 | //! This is where `S(c, P)` comes in: | ||
149 | //! | ||
150 | //! ```text | ||
151 | //! U(P, p) := U(S(c, P), S(c, p)) | ||
152 | //! ``` | ||
153 | //! | ||
154 | //! This special case is handled in `is_useful_specialized`. | ||
155 | //! | ||
156 | //! For example, if `P` is: | ||
157 | //! | ||
158 | //! ```text | ||
159 | //! [ | ||
160 | //! [Some(true), _], | ||
161 | //! [None, 0], | ||
162 | //! ] | ||
163 | //! ``` | ||
164 | //! | ||
165 | //! and `p` is `[Some(false), 0]`, then we don't care about row 2 since we know `p` only | ||
166 | //! matches values that row 2 doesn't. For row 1 however, we need to dig into the | ||
167 | //! arguments of `Some` to know whether some new value is covered. So we compute | ||
168 | //! `U([[true, _]], [false, 0])`. | ||
169 | //! | ||
170 | //! - If `p_1 == _`, then we look at the list of constructors that appear in the first component of | ||
171 | //! the rows of `P`: | ||
172 | //! - If there are some constructors that aren't present, then we might think that the | ||
173 | //! wildcard `_` is useful, since it covers those constructors that weren't covered | ||
174 | //! before. | ||
175 | //! That's almost correct, but only works if there were no wildcards in those first | ||
176 | //! components. So we need to check that `p` is useful with respect to the rows that | ||
177 | //! start with a wildcard, if there are any. This is where `D` comes in: | ||
178 | //! `U(P, p) := U(D(P), D(p))` | ||
179 | //! | ||
180 | //! For example, if `P` is: | ||
181 | //! ```text | ||
182 | //! [ | ||
183 | //! [_, true, _], | ||
184 | //! [None, false, 1], | ||
185 | //! ] | ||
186 | //! ``` | ||
187 | //! and `p` is `[_, false, _]`, the `Some` constructor doesn't appear in `P`. So if we | ||
188 | //! only had row 2, we'd know that `p` is useful. However row 1 starts with a | ||
189 | //! wildcard, so we need to check whether `U([[true, _]], [false, 1])`. | ||
190 | //! | ||
191 | //! - Otherwise, all possible constructors (for the relevant type) are present. In this | ||
192 | //! case we must check whether the wildcard pattern covers any unmatched value. For | ||
193 | //! that, we can think of the `_` pattern as a big OR-pattern that covers all | ||
194 | //! possible constructors. For `Option`, that would mean `_ = None | Some(_)` for | ||
195 | //! example. The wildcard pattern is useful in this case if it is useful when | ||
196 | //! specialized to one of the possible constructors. So we compute: | ||
197 | //! `U(P, p) := ∃(k ϵ constructors) U(S(k, P), S(k, p))` | ||
198 | //! | ||
199 | //! For example, if `P` is: | ||
200 | //! ```text | ||
201 | //! [ | ||
202 | //! [Some(true), _], | ||
203 | //! [None, false], | ||
204 | //! ] | ||
205 | //! ``` | ||
206 | //! and `p` is `[_, false]`, both `None` and `Some` constructors appear in the first | ||
207 | //! components of `P`. We will therefore try popping both constructors in turn: we | ||
208 | //! compute `U([[true, _]], [_, false])` for the `Some` constructor, and `U([[false]], | ||
209 | //! [false])` for the `None` constructor. The first case returns true, so we know that | ||
210 | //! `p` is useful for `P`. Indeed, it matches `[Some(false), _]` that wasn't matched | ||
211 | //! before. | ||
212 | //! | ||
213 | //! - If `p_1 == r_1 | r_2`, then the usefulness depends on each `r_i` separately: | ||
214 | //! | ||
215 | //! ```text | ||
216 | //! U(P, p) := U(P, (r_1, p_2, .., p_n)) | ||
217 | //! || U(P, (r_2, p_2, .., p_n)) | ||
218 | //! ``` | ||
219 | use std::{iter, sync::Arc}; | ||
220 | |||
221 | use hir_def::{ | ||
222 | adt::VariantData, | ||
223 | body::Body, | ||
224 | expr::{Expr, Literal, Pat, PatId}, | ||
225 | EnumVariantId, StructId, VariantId, | ||
226 | }; | ||
227 | use la_arena::Idx; | 13 | use la_arena::Idx; |
228 | use smallvec::{smallvec, SmallVec}; | ||
229 | |||
230 | use crate::{db::HirDatabase, AdtId, InferenceResult, Interner, TyExt, TyKind}; | ||
231 | |||
232 | #[derive(Debug, Clone, Copy)] | ||
233 | /// Either a pattern from the source code being analyzed, represented as | ||
234 | /// as `PatId`, or a `Wild` pattern which is created as an intermediate | ||
235 | /// step in the match checking algorithm and thus is not backed by a | ||
236 | /// real `PatId`. | ||
237 | /// | ||
238 | /// Note that it is totally valid for the `PatId` variant to contain | ||
239 | /// a `PatId` which resolves to a `Wild` pattern, if that wild pattern | ||
240 | /// exists in the source code being analyzed. | ||
241 | enum PatIdOrWild { | ||
242 | PatId(PatId), | ||
243 | Wild, | ||
244 | } | ||
245 | 14 | ||
246 | impl PatIdOrWild { | 15 | use crate::{db::HirDatabase, InferenceResult, Interner, Substitution, Ty, TyKind}; |
247 | fn as_pat(self, cx: &MatchCheckCtx) -> Pat { | ||
248 | match self { | ||
249 | PatIdOrWild::PatId(id) => cx.body.pats[id].clone(), | ||
250 | PatIdOrWild::Wild => Pat::Wild, | ||
251 | } | ||
252 | } | ||
253 | 16 | ||
254 | fn as_id(self) -> Option<PatId> { | 17 | use self::pat_util::EnumerateAndAdjustIterator; |
255 | match self { | ||
256 | PatIdOrWild::PatId(id) => Some(id), | ||
257 | PatIdOrWild::Wild => None, | ||
258 | } | ||
259 | } | ||
260 | } | ||
261 | 18 | ||
262 | impl From<PatId> for PatIdOrWild { | 19 | pub(crate) use self::usefulness::MatchArm; |
263 | fn from(pat_id: PatId) -> Self { | ||
264 | Self::PatId(pat_id) | ||
265 | } | ||
266 | } | ||
267 | 20 | ||
268 | impl From<&PatId> for PatIdOrWild { | 21 | pub(crate) type PatId = Idx<Pat>; |
269 | fn from(pat_id: &PatId) -> Self { | ||
270 | Self::PatId(*pat_id) | ||
271 | } | ||
272 | } | ||
273 | 22 | ||
274 | #[derive(Debug, Clone, Copy, PartialEq)] | 23 | #[derive(Clone, Debug)] |
275 | pub(super) enum MatchCheckErr { | 24 | pub(crate) enum PatternError { |
276 | NotImplemented, | 25 | Unimplemented, |
277 | MalformedMatchArm, | 26 | UnresolvedVariant, |
278 | /// Used when type inference cannot resolve the type of | ||
279 | /// a pattern or expression. | ||
280 | Unknown, | ||
281 | } | 27 | } |
282 | 28 | ||
283 | /// The return type of `is_useful` is either an indication of usefulness | 29 | #[derive(Clone, Debug, PartialEq)] |
284 | /// of the match arm, or an error in the case the match statement | 30 | pub(crate) struct FieldPat { |
285 | /// is made up of types for which exhaustiveness checking is currently | 31 | pub(crate) field: LocalFieldId, |
286 | /// not completely implemented. | 32 | pub(crate) pattern: Pat, |
287 | /// | 33 | } |
288 | /// The `std::result::Result` type is used here rather than a custom enum | ||
289 | /// to allow the use of `?`. | ||
290 | pub(super) type MatchCheckResult<T> = Result<T, MatchCheckErr>; | ||
291 | |||
292 | #[derive(Debug)] | ||
293 | /// A row in a Matrix. | ||
294 | /// | ||
295 | /// This type is modeled from the struct of the same name in `rustc`. | ||
296 | pub(super) struct PatStack(PatStackInner); | ||
297 | type PatStackInner = SmallVec<[PatIdOrWild; 2]>; | ||
298 | 34 | ||
299 | impl PatStack { | 35 | #[derive(Clone, Debug, PartialEq)] |
300 | pub(super) fn from_pattern(pat_id: PatId) -> PatStack { | 36 | pub(crate) struct Pat { |
301 | Self(smallvec!(pat_id.into())) | 37 | pub(crate) ty: Ty, |
302 | } | 38 | pub(crate) kind: Box<PatKind>, |
39 | } | ||
303 | 40 | ||
304 | pub(super) fn from_wild() -> PatStack { | 41 | impl Pat { |
305 | Self(smallvec!(PatIdOrWild::Wild)) | 42 | pub(crate) fn wildcard_from_ty(ty: &Ty) -> Self { |
43 | Pat { ty: ty.clone(), kind: Box::new(PatKind::Wild) } | ||
306 | } | 44 | } |
45 | } | ||
307 | 46 | ||
308 | fn from_slice(slice: &[PatIdOrWild]) -> PatStack { | 47 | /// Close relative to `rustc_mir_build::thir::pattern::PatKind` |
309 | Self(SmallVec::from_slice(slice)) | 48 | #[derive(Clone, Debug, PartialEq)] |
310 | } | 49 | pub(crate) enum PatKind { |
50 | Wild, | ||
311 | 51 | ||
312 | fn from_vec(v: PatStackInner) -> PatStack { | 52 | /// `x`, `ref x`, `x @ P`, etc. |
313 | Self(v) | 53 | Binding { |
314 | } | 54 | subpattern: Option<Pat>, |
55 | }, | ||
56 | |||
57 | /// `Foo(...)` or `Foo{...}` or `Foo`, where `Foo` is a variant name from an ADT with | ||
58 | /// multiple variants. | ||
59 | Variant { | ||
60 | substs: Substitution, | ||
61 | enum_variant: EnumVariantId, | ||
62 | subpatterns: Vec<FieldPat>, | ||
63 | }, | ||
64 | |||
65 | /// `(...)`, `Foo(...)`, `Foo{...}`, or `Foo`, where `Foo` is a variant name from an ADT with | ||
66 | /// a single variant. | ||
67 | Leaf { | ||
68 | subpatterns: Vec<FieldPat>, | ||
69 | }, | ||
70 | |||
71 | /// `box P`, `&P`, `&mut P`, etc. | ||
72 | Deref { | ||
73 | subpattern: Pat, | ||
74 | }, | ||
75 | |||
76 | // FIXME: for now, only bool literals are implemented | ||
77 | LiteralBool { | ||
78 | value: bool, | ||
79 | }, | ||
80 | |||
81 | /// An or-pattern, e.g. `p | q`. | ||
82 | /// Invariant: `pats.len() >= 2`. | ||
83 | Or { | ||
84 | pats: Vec<Pat>, | ||
85 | }, | ||
86 | } | ||
315 | 87 | ||
316 | fn get_head(&self) -> Option<PatIdOrWild> { | 88 | pub(crate) struct PatCtxt<'a> { |
317 | self.0.first().copied() | 89 | db: &'a dyn HirDatabase, |
318 | } | 90 | infer: &'a InferenceResult, |
91 | body: &'a Body, | ||
92 | pub(crate) errors: Vec<PatternError>, | ||
93 | } | ||
319 | 94 | ||
320 | fn tail(&self) -> &[PatIdOrWild] { | 95 | impl<'a> PatCtxt<'a> { |
321 | self.0.get(1..).unwrap_or(&[]) | 96 | pub(crate) fn new(db: &'a dyn HirDatabase, infer: &'a InferenceResult, body: &'a Body) -> Self { |
97 | Self { db, infer, body, errors: Vec::new() } | ||
322 | } | 98 | } |
323 | 99 | ||
324 | fn to_tail(&self) -> PatStack { | 100 | pub(crate) fn lower_pattern(&mut self, pat: hir_def::expr::PatId) -> Pat { |
325 | Self::from_slice(self.tail()) | 101 | // FIXME: implement pattern adjustments (implicit pattern dereference; "RFC 2005-match-ergonomics") |
102 | // More info https://github.com/rust-lang/rust/issues/42640#issuecomment-313535089 | ||
103 | let unadjusted_pat = self.lower_pattern_unadjusted(pat); | ||
104 | unadjusted_pat | ||
326 | } | 105 | } |
327 | 106 | ||
328 | fn replace_head_with<I, T>(&self, pats: I) -> PatStack | 107 | fn lower_pattern_unadjusted(&mut self, pat: hir_def::expr::PatId) -> Pat { |
329 | where | 108 | let ty = &self.infer[pat]; |
330 | I: Iterator<Item = T>, | 109 | let variant = self.infer.variant_resolution_for_pat(pat); |
331 | T: Into<PatIdOrWild>, | ||
332 | { | ||
333 | let mut patterns: PatStackInner = smallvec![]; | ||
334 | for pat in pats { | ||
335 | patterns.push(pat.into()); | ||
336 | } | ||
337 | for pat in &self.0[1..] { | ||
338 | patterns.push(*pat); | ||
339 | } | ||
340 | PatStack::from_vec(patterns) | ||
341 | } | ||
342 | 110 | ||
343 | /// Computes `D(self)`. | 111 | let kind = match self.body[pat] { |
344 | /// | 112 | hir_def::expr::Pat::Wild => PatKind::Wild, |
345 | /// See the module docs and the associated documentation in rustc for details. | ||
346 | fn specialize_wildcard(&self, cx: &MatchCheckCtx) -> Option<PatStack> { | ||
347 | if matches!(self.get_head()?.as_pat(cx), Pat::Wild) { | ||
348 | Some(self.to_tail()) | ||
349 | } else { | ||
350 | None | ||
351 | } | ||
352 | } | ||
353 | 113 | ||
354 | /// Computes `S(constructor, self)`. | 114 | hir_def::expr::Pat::Lit(expr) => self.lower_lit(expr), |
355 | /// | ||
356 | /// See the module docs and the associated documentation in rustc for details. | ||
357 | fn specialize_constructor( | ||
358 | &self, | ||
359 | cx: &MatchCheckCtx, | ||
360 | constructor: &Constructor, | ||
361 | ) -> MatchCheckResult<Option<PatStack>> { | ||
362 | let head = match self.get_head() { | ||
363 | Some(head) => head, | ||
364 | None => return Ok(None), | ||
365 | }; | ||
366 | 115 | ||
367 | let head_pat = head.as_pat(cx); | 116 | hir_def::expr::Pat::Path(ref path) => { |
368 | let result = match (head_pat, constructor) { | 117 | return self.lower_path(pat, path); |
369 | (Pat::Tuple { args: pat_ids, ellipsis }, &Constructor::Tuple { arity }) => { | ||
370 | if let Some(ellipsis) = ellipsis { | ||
371 | let (pre, post) = pat_ids.split_at(ellipsis); | ||
372 | let n_wild_pats = arity.saturating_sub(pat_ids.len()); | ||
373 | let pre_iter = pre.iter().map(Into::into); | ||
374 | let wildcards = iter::repeat(PatIdOrWild::Wild).take(n_wild_pats); | ||
375 | let post_iter = post.iter().map(Into::into); | ||
376 | Some(self.replace_head_with(pre_iter.chain(wildcards).chain(post_iter))) | ||
377 | } else { | ||
378 | Some(self.replace_head_with(pat_ids.iter())) | ||
379 | } | ||
380 | } | ||
381 | (Pat::Lit(lit_expr), Constructor::Bool(constructor_val)) => { | ||
382 | match cx.body.exprs[lit_expr] { | ||
383 | Expr::Literal(Literal::Bool(pat_val)) if *constructor_val == pat_val => { | ||
384 | Some(self.to_tail()) | ||
385 | } | ||
386 | // it was a bool but the value doesn't match | ||
387 | Expr::Literal(Literal::Bool(_)) => None, | ||
388 | // perhaps this is actually unreachable given we have | ||
389 | // already checked that these match arms have the appropriate type? | ||
390 | _ => return Err(MatchCheckErr::NotImplemented), | ||
391 | } | ||
392 | } | 118 | } |
393 | (Pat::Wild, constructor) => Some(self.expand_wildcard(cx, constructor)?), | 119 | |
394 | (Pat::Path(_), constructor) => { | 120 | hir_def::expr::Pat::Tuple { ref args, ellipsis } => { |
395 | // unit enum variants become `Pat::Path` | 121 | let arity = match *ty.kind(&Interner) { |
396 | let pat_id = head.as_id().expect("we know this isn't a wild"); | 122 | TyKind::Tuple(arity, _) => arity, |
397 | let variant_id: VariantId = match constructor { | 123 | _ => panic!("unexpected type for tuple pattern: {:?}", ty), |
398 | &Constructor::Enum(e) => e.into(), | ||
399 | &Constructor::Struct(s) => s.into(), | ||
400 | _ => return Err(MatchCheckErr::NotImplemented), | ||
401 | }; | 124 | }; |
402 | if Some(variant_id) != cx.infer.variant_resolution_for_pat(pat_id) { | 125 | let subpatterns = self.lower_tuple_subpats(args, arity, ellipsis); |
403 | None | 126 | PatKind::Leaf { subpatterns } |
404 | } else { | ||
405 | Some(self.to_tail()) | ||
406 | } | ||
407 | } | 127 | } |
408 | (Pat::TupleStruct { args: ref pat_ids, ellipsis, .. }, constructor) => { | 128 | |
409 | let pat_id = head.as_id().expect("we know this isn't a wild"); | 129 | hir_def::expr::Pat::Bind { subpat, .. } => { |
410 | let variant_id: VariantId = match constructor { | 130 | PatKind::Binding { subpattern: self.lower_opt_pattern(subpat) } |
411 | &Constructor::Enum(e) => e.into(), | ||
412 | &Constructor::Struct(s) => s.into(), | ||
413 | _ => return Err(MatchCheckErr::MalformedMatchArm), | ||
414 | }; | ||
415 | if Some(variant_id) != cx.infer.variant_resolution_for_pat(pat_id) { | ||
416 | None | ||
417 | } else { | ||
418 | let constructor_arity = constructor.arity(cx)?; | ||
419 | if let Some(ellipsis_position) = ellipsis { | ||
420 | // If there are ellipsis in the pattern, the ellipsis must take the place | ||
421 | // of at least one sub-pattern, so `pat_ids` should be smaller than the | ||
422 | // constructor arity. | ||
423 | if pat_ids.len() < constructor_arity { | ||
424 | let mut new_patterns: Vec<PatIdOrWild> = vec![]; | ||
425 | |||
426 | for pat_id in &pat_ids[0..ellipsis_position] { | ||
427 | new_patterns.push((*pat_id).into()); | ||
428 | } | ||
429 | |||
430 | for _ in 0..(constructor_arity - pat_ids.len()) { | ||
431 | new_patterns.push(PatIdOrWild::Wild); | ||
432 | } | ||
433 | |||
434 | for pat_id in &pat_ids[ellipsis_position..pat_ids.len()] { | ||
435 | new_patterns.push((*pat_id).into()); | ||
436 | } | ||
437 | |||
438 | Some(self.replace_head_with(new_patterns.into_iter())) | ||
439 | } else { | ||
440 | return Err(MatchCheckErr::MalformedMatchArm); | ||
441 | } | ||
442 | } else { | ||
443 | // If there is no ellipsis in the tuple pattern, the number | ||
444 | // of patterns must equal the constructor arity. | ||
445 | if pat_ids.len() == constructor_arity { | ||
446 | Some(self.replace_head_with(pat_ids.into_iter())) | ||
447 | } else { | ||
448 | return Err(MatchCheckErr::MalformedMatchArm); | ||
449 | } | ||
450 | } | ||
451 | } | ||
452 | } | ||
453 | (Pat::Record { args: ref arg_patterns, .. }, constructor) => { | ||
454 | let pat_id = head.as_id().expect("we know this isn't a wild"); | ||
455 | let (variant_id, variant_data) = match constructor { | ||
456 | &Constructor::Enum(e) => ( | ||
457 | e.into(), | ||
458 | cx.db.enum_data(e.parent).variants[e.local_id].variant_data.clone(), | ||
459 | ), | ||
460 | &Constructor::Struct(s) => { | ||
461 | (s.into(), cx.db.struct_data(s).variant_data.clone()) | ||
462 | } | ||
463 | _ => return Err(MatchCheckErr::MalformedMatchArm), | ||
464 | }; | ||
465 | if Some(variant_id) != cx.infer.variant_resolution_for_pat(pat_id) { | ||
466 | None | ||
467 | } else { | ||
468 | match variant_data.as_ref() { | ||
469 | VariantData::Record(struct_field_arena) => { | ||
470 | // Here we treat any missing fields in the record as the wild pattern, as | ||
471 | // if the record has ellipsis. We want to do this here even if the | ||
472 | // record does not contain ellipsis, because it allows us to continue | ||
473 | // enforcing exhaustiveness for the rest of the match statement. | ||
474 | // | ||
475 | // Creating the diagnostic for the missing field in the pattern | ||
476 | // should be done in a different diagnostic. | ||
477 | let patterns = struct_field_arena.iter().map(|(_, struct_field)| { | ||
478 | arg_patterns | ||
479 | .iter() | ||
480 | .find(|pat| pat.name == struct_field.name) | ||
481 | .map(|pat| PatIdOrWild::from(pat.pat)) | ||
482 | .unwrap_or(PatIdOrWild::Wild) | ||
483 | }); | ||
484 | |||
485 | Some(self.replace_head_with(patterns)) | ||
486 | } | ||
487 | _ => return Err(MatchCheckErr::Unknown), | ||
488 | } | ||
489 | } | ||
490 | } | 131 | } |
491 | (Pat::Or(_), _) => return Err(MatchCheckErr::NotImplemented), | ||
492 | (_, _) => return Err(MatchCheckErr::NotImplemented), | ||
493 | }; | ||
494 | 132 | ||
495 | Ok(result) | 133 | hir_def::expr::Pat::TupleStruct { ref args, ellipsis, .. } if variant.is_some() => { |
496 | } | 134 | let expected_len = variant.unwrap().variant_data(self.db.upcast()).fields().len(); |
497 | 135 | let subpatterns = self.lower_tuple_subpats(args, expected_len, ellipsis); | |
498 | /// A special case of `specialize_constructor` where the head of the pattern stack | 136 | self.lower_variant_or_leaf(pat, ty, subpatterns) |
499 | /// is a Wild pattern. | 137 | } |
500 | /// | ||
501 | /// Replaces the Wild pattern at the head of the pattern stack with N Wild patterns | ||
502 | /// (N >= 0), where N is the arity of the given constructor. | ||
503 | fn expand_wildcard( | ||
504 | &self, | ||
505 | cx: &MatchCheckCtx, | ||
506 | constructor: &Constructor, | ||
507 | ) -> MatchCheckResult<PatStack> { | ||
508 | assert_eq!( | ||
509 | Pat::Wild, | ||
510 | self.get_head().expect("expand_wildcard called on empty PatStack").as_pat(cx), | ||
511 | "expand_wildcard must only be called on PatStack with wild at head", | ||
512 | ); | ||
513 | 138 | ||
514 | let mut patterns: PatStackInner = smallvec![]; | 139 | hir_def::expr::Pat::Record { ref args, .. } if variant.is_some() => { |
140 | let variant_data = variant.unwrap().variant_data(self.db.upcast()); | ||
141 | let subpatterns = args | ||
142 | .iter() | ||
143 | .map(|field| FieldPat { | ||
144 | // XXX(iDawer): field lookup is inefficient | ||
145 | field: variant_data.field(&field.name).unwrap(), | ||
146 | pattern: self.lower_pattern(field.pat), | ||
147 | }) | ||
148 | .collect(); | ||
149 | self.lower_variant_or_leaf(pat, ty, subpatterns) | ||
150 | } | ||
151 | hir_def::expr::Pat::TupleStruct { .. } | hir_def::expr::Pat::Record { .. } => { | ||
152 | self.errors.push(PatternError::UnresolvedVariant); | ||
153 | PatKind::Wild | ||
154 | } | ||
515 | 155 | ||
516 | for _ in 0..constructor.arity(cx)? { | 156 | hir_def::expr::Pat::Or(ref pats) => PatKind::Or { pats: self.lower_patterns(pats) }, |
517 | patterns.push(PatIdOrWild::Wild); | ||
518 | } | ||
519 | 157 | ||
520 | for pat in &self.0[1..] { | 158 | _ => { |
521 | patterns.push(*pat); | 159 | self.errors.push(PatternError::Unimplemented); |
522 | } | 160 | PatKind::Wild |
161 | } | ||
162 | }; | ||
523 | 163 | ||
524 | Ok(PatStack::from_vec(patterns)) | 164 | Pat { ty: ty.clone(), kind: Box::new(kind) } |
525 | } | 165 | } |
526 | } | ||
527 | 166 | ||
528 | /// A collection of PatStack. | 167 | fn lower_tuple_subpats( |
529 | /// | 168 | &mut self, |
530 | /// This type is modeled from the struct of the same name in `rustc`. | 169 | pats: &[hir_def::expr::PatId], |
531 | pub(super) struct Matrix(Vec<PatStack>); | 170 | expected_len: usize, |
532 | 171 | ellipsis: Option<usize>, | |
533 | impl Matrix { | 172 | ) -> Vec<FieldPat> { |
534 | pub(super) fn empty() -> Self { | 173 | pats.iter() |
535 | Self(vec![]) | 174 | .enumerate_and_adjust(expected_len, ellipsis) |
175 | .map(|(i, &subpattern)| FieldPat { | ||
176 | field: LocalFieldId::from_raw((i as u32).into()), | ||
177 | pattern: self.lower_pattern(subpattern), | ||
178 | }) | ||
179 | .collect() | ||
536 | } | 180 | } |
537 | 181 | ||
538 | pub(super) fn push(&mut self, cx: &MatchCheckCtx, row: PatStack) { | 182 | fn lower_patterns(&mut self, pats: &[hir_def::expr::PatId]) -> Vec<Pat> { |
539 | if let Some(Pat::Or(pat_ids)) = row.get_head().map(|pat_id| pat_id.as_pat(cx)) { | 183 | pats.iter().map(|&p| self.lower_pattern(p)).collect() |
540 | // Or patterns are expanded here | ||
541 | for pat_id in pat_ids { | ||
542 | self.0.push(row.replace_head_with([pat_id].iter())); | ||
543 | } | ||
544 | } else { | ||
545 | self.0.push(row); | ||
546 | } | ||
547 | } | 184 | } |
548 | 185 | ||
549 | fn is_empty(&self) -> bool { | 186 | fn lower_opt_pattern(&mut self, pat: Option<hir_def::expr::PatId>) -> Option<Pat> { |
550 | self.0.is_empty() | 187 | pat.map(|p| self.lower_pattern(p)) |
551 | } | 188 | } |
552 | 189 | ||
553 | fn heads(&self) -> Vec<PatIdOrWild> { | 190 | fn lower_variant_or_leaf( |
554 | self.0.iter().flat_map(|p| p.get_head()).collect() | 191 | &mut self, |
192 | pat: hir_def::expr::PatId, | ||
193 | ty: &Ty, | ||
194 | subpatterns: Vec<FieldPat>, | ||
195 | ) -> PatKind { | ||
196 | let kind = match self.infer.variant_resolution_for_pat(pat) { | ||
197 | Some(variant_id) => { | ||
198 | if let VariantId::EnumVariantId(enum_variant) = variant_id { | ||
199 | let substs = match ty.kind(&Interner) { | ||
200 | TyKind::Adt(_, substs) | TyKind::FnDef(_, substs) => substs.clone(), | ||
201 | TyKind::Error => { | ||
202 | return PatKind::Wild; | ||
203 | } | ||
204 | _ => panic!("inappropriate type for def: {:?}", ty), | ||
205 | }; | ||
206 | PatKind::Variant { substs, enum_variant, subpatterns } | ||
207 | } else { | ||
208 | PatKind::Leaf { subpatterns } | ||
209 | } | ||
210 | } | ||
211 | None => { | ||
212 | self.errors.push(PatternError::UnresolvedVariant); | ||
213 | PatKind::Wild | ||
214 | } | ||
215 | }; | ||
216 | kind | ||
555 | } | 217 | } |
556 | 218 | ||
557 | /// Computes `D(self)` for each contained PatStack. | 219 | fn lower_path(&mut self, pat: hir_def::expr::PatId, _path: &hir_def::path::Path) -> Pat { |
558 | /// | 220 | let ty = &self.infer[pat]; |
559 | /// See the module docs and the associated documentation in rustc for details. | ||
560 | fn specialize_wildcard(&self, cx: &MatchCheckCtx) -> Self { | ||
561 | Self::collect(cx, self.0.iter().filter_map(|r| r.specialize_wildcard(cx))) | ||
562 | } | ||
563 | 221 | ||
564 | /// Computes `S(constructor, self)` for each contained PatStack. | 222 | let pat_from_kind = |kind| Pat { ty: ty.clone(), kind: Box::new(kind) }; |
565 | /// | 223 | |
566 | /// See the module docs and the associated documentation in rustc for details. | 224 | match self.infer.variant_resolution_for_pat(pat) { |
567 | fn specialize_constructor( | 225 | Some(_) => pat_from_kind(self.lower_variant_or_leaf(pat, ty, Vec::new())), |
568 | &self, | 226 | None => { |
569 | cx: &MatchCheckCtx, | 227 | self.errors.push(PatternError::UnresolvedVariant); |
570 | constructor: &Constructor, | 228 | pat_from_kind(PatKind::Wild) |
571 | ) -> MatchCheckResult<Self> { | ||
572 | let mut new_matrix = Matrix::empty(); | ||
573 | for pat in &self.0 { | ||
574 | if let Some(pat) = pat.specialize_constructor(cx, constructor)? { | ||
575 | new_matrix.push(cx, pat); | ||
576 | } | 229 | } |
577 | } | 230 | } |
578 | |||
579 | Ok(new_matrix) | ||
580 | } | 231 | } |
581 | 232 | ||
582 | fn collect<T: IntoIterator<Item = PatStack>>(cx: &MatchCheckCtx, iter: T) -> Self { | 233 | fn lower_lit(&mut self, expr: hir_def::expr::ExprId) -> PatKind { |
583 | let mut matrix = Matrix::empty(); | 234 | use hir_def::expr::{Expr, Literal::Bool}; |
584 | 235 | ||
585 | for pat in iter { | 236 | match self.body[expr] { |
586 | // using push ensures we expand or-patterns | 237 | Expr::Literal(Bool(value)) => PatKind::LiteralBool { value }, |
587 | matrix.push(cx, pat); | 238 | _ => { |
239 | self.errors.push(PatternError::Unimplemented); | ||
240 | PatKind::Wild | ||
241 | } | ||
588 | } | 242 | } |
589 | |||
590 | matrix | ||
591 | } | 243 | } |
592 | } | 244 | } |
593 | 245 | ||
594 | #[derive(Clone, Debug, PartialEq)] | 246 | pub(crate) trait PatternFoldable: Sized { |
595 | /// An indication of the usefulness of a given match arm, where | 247 | fn fold_with<F: PatternFolder>(&self, folder: &mut F) -> Self { |
596 | /// usefulness is defined as matching some patterns which were | 248 | self.super_fold_with(folder) |
597 | /// not matched by an prior match arms. | 249 | } |
598 | /// | ||
599 | /// We may eventually need an `Unknown` variant here. | ||
600 | pub(super) enum Usefulness { | ||
601 | Useful, | ||
602 | NotUseful, | ||
603 | } | ||
604 | 250 | ||
605 | pub(super) struct MatchCheckCtx<'a> { | 251 | fn super_fold_with<F: PatternFolder>(&self, folder: &mut F) -> Self; |
606 | pub(super) match_expr: Idx<Expr>, | ||
607 | pub(super) body: Arc<Body>, | ||
608 | pub(super) infer: Arc<InferenceResult>, | ||
609 | pub(super) db: &'a dyn HirDatabase, | ||
610 | } | 252 | } |
611 | 253 | ||
612 | /// Given a set of patterns `matrix`, and pattern to consider `v`, determines | 254 | pub(crate) trait PatternFolder: Sized { |
613 | /// whether `v` is useful. A pattern is useful if it covers cases which were | 255 | fn fold_pattern(&mut self, pattern: &Pat) -> Pat { |
614 | /// not previously covered. | 256 | pattern.super_fold_with(self) |
615 | /// | ||
616 | /// When calling this function externally (that is, not the recursive calls) it | ||
617 | /// expected that you have already type checked the match arms. All patterns in | ||
618 | /// matrix should be the same type as v, as well as they should all be the same | ||
619 | /// type as the match expression. | ||
620 | pub(super) fn is_useful( | ||
621 | cx: &MatchCheckCtx, | ||
622 | matrix: &Matrix, | ||
623 | v: &PatStack, | ||
624 | ) -> MatchCheckResult<Usefulness> { | ||
625 | // Handle two special cases: | ||
626 | // - enum with no variants | ||
627 | // - `!` type | ||
628 | // In those cases, no match arm is useful. | ||
629 | match cx.infer[cx.match_expr].strip_references().kind(&Interner) { | ||
630 | TyKind::Adt(AdtId(hir_def::AdtId::EnumId(enum_id)), ..) => { | ||
631 | if cx.db.enum_data(*enum_id).variants.is_empty() { | ||
632 | return Ok(Usefulness::NotUseful); | ||
633 | } | ||
634 | } | ||
635 | TyKind::Never => return Ok(Usefulness::NotUseful), | ||
636 | _ => (), | ||
637 | } | 257 | } |
638 | 258 | ||
639 | let head = match v.get_head() { | 259 | fn fold_pattern_kind(&mut self, kind: &PatKind) -> PatKind { |
640 | Some(head) => head, | 260 | kind.super_fold_with(self) |
641 | None => { | ||
642 | let result = if matrix.is_empty() { Usefulness::Useful } else { Usefulness::NotUseful }; | ||
643 | |||
644 | return Ok(result); | ||
645 | } | ||
646 | }; | ||
647 | |||
648 | if let Pat::Or(pat_ids) = head.as_pat(cx) { | ||
649 | let mut found_unimplemented = false; | ||
650 | let any_useful = pat_ids.iter().any(|&pat_id| { | ||
651 | let v = PatStack::from_pattern(pat_id); | ||
652 | |||
653 | match is_useful(cx, matrix, &v) { | ||
654 | Ok(Usefulness::Useful) => true, | ||
655 | Ok(Usefulness::NotUseful) => false, | ||
656 | _ => { | ||
657 | found_unimplemented = true; | ||
658 | false | ||
659 | } | ||
660 | } | ||
661 | }); | ||
662 | |||
663 | return if any_useful { | ||
664 | Ok(Usefulness::Useful) | ||
665 | } else if found_unimplemented { | ||
666 | Err(MatchCheckErr::NotImplemented) | ||
667 | } else { | ||
668 | Ok(Usefulness::NotUseful) | ||
669 | }; | ||
670 | } | 261 | } |
262 | } | ||
671 | 263 | ||
672 | if let Some(constructor) = pat_constructor(cx, head)? { | 264 | impl<T: PatternFoldable> PatternFoldable for Box<T> { |
673 | let matrix = matrix.specialize_constructor(&cx, &constructor)?; | 265 | fn super_fold_with<F: PatternFolder>(&self, folder: &mut F) -> Self { |
674 | let v = v | 266 | let content: T = (**self).fold_with(folder); |
675 | .specialize_constructor(&cx, &constructor)? | 267 | Box::new(content) |
676 | .expect("we know this can't fail because we get the constructor from `v.head()` above"); | 268 | } |
677 | 269 | } | |
678 | is_useful(&cx, &matrix, &v) | ||
679 | } else { | ||
680 | // expanding wildcard | ||
681 | let mut used_constructors: Vec<Constructor> = vec![]; | ||
682 | for pat in matrix.heads() { | ||
683 | if let Some(constructor) = pat_constructor(cx, pat)? { | ||
684 | used_constructors.push(constructor); | ||
685 | } | ||
686 | } | ||
687 | |||
688 | // We assume here that the first constructor is the "correct" type. Since we | ||
689 | // only care about the "type" of the constructor (i.e. if it is a bool we | ||
690 | // don't care about the value), this assumption should be valid as long as | ||
691 | // the match statement is well formed. We currently uphold this invariant by | ||
692 | // filtering match arms before calling `is_useful`, only passing in match arms | ||
693 | // whose type matches the type of the match expression. | ||
694 | match &used_constructors.first() { | ||
695 | Some(constructor) if all_constructors_covered(&cx, constructor, &used_constructors) => { | ||
696 | // If all constructors are covered, then we need to consider whether | ||
697 | // any values are covered by this wildcard. | ||
698 | // | ||
699 | // For example, with matrix '[[Some(true)], [None]]', all | ||
700 | // constructors are covered (`Some`/`None`), so we need | ||
701 | // to perform specialization to see that our wildcard will cover | ||
702 | // the `Some(false)` case. | ||
703 | // | ||
704 | // Here we create a constructor for each variant and then check | ||
705 | // usefulness after specializing for that constructor. | ||
706 | let mut found_unimplemented = false; | ||
707 | for constructor in constructor.all_constructors(cx) { | ||
708 | let matrix = matrix.specialize_constructor(&cx, &constructor)?; | ||
709 | let v = v.expand_wildcard(&cx, &constructor)?; | ||
710 | |||
711 | match is_useful(&cx, &matrix, &v) { | ||
712 | Ok(Usefulness::Useful) => return Ok(Usefulness::Useful), | ||
713 | Ok(Usefulness::NotUseful) => continue, | ||
714 | _ => found_unimplemented = true, | ||
715 | }; | ||
716 | } | ||
717 | |||
718 | if found_unimplemented { | ||
719 | Err(MatchCheckErr::NotImplemented) | ||
720 | } else { | ||
721 | Ok(Usefulness::NotUseful) | ||
722 | } | ||
723 | } | ||
724 | _ => { | ||
725 | // Either not all constructors are covered, or the only other arms | ||
726 | // are wildcards. Either way, this pattern is useful if it is useful | ||
727 | // when compared to those arms with wildcards. | ||
728 | let matrix = matrix.specialize_wildcard(&cx); | ||
729 | let v = v.to_tail(); | ||
730 | 270 | ||
731 | is_useful(&cx, &matrix, &v) | 271 | impl<T: PatternFoldable> PatternFoldable for Vec<T> { |
732 | } | 272 | fn super_fold_with<F: PatternFolder>(&self, folder: &mut F) -> Self { |
733 | } | 273 | self.iter().map(|t| t.fold_with(folder)).collect() |
734 | } | 274 | } |
735 | } | 275 | } |
736 | 276 | ||
737 | #[derive(Debug, Clone, Copy)] | 277 | impl<T: PatternFoldable> PatternFoldable for Option<T> { |
738 | /// Similar to TypeCtor, but includes additional information about the specific | 278 | fn super_fold_with<F: PatternFolder>(&self, folder: &mut F) -> Self { |
739 | /// value being instantiated. For example, TypeCtor::Bool doesn't contain the | 279 | self.as_ref().map(|t| t.fold_with(folder)) |
740 | /// boolean value. | 280 | } |
741 | enum Constructor { | ||
742 | Bool(bool), | ||
743 | Tuple { arity: usize }, | ||
744 | Enum(EnumVariantId), | ||
745 | Struct(StructId), | ||
746 | } | 281 | } |
747 | 282 | ||
748 | impl Constructor { | 283 | macro_rules! clone_impls { |
749 | fn arity(&self, cx: &MatchCheckCtx) -> MatchCheckResult<usize> { | 284 | ($($ty:ty),+) => { |
750 | let arity = match self { | 285 | $( |
751 | Constructor::Bool(_) => 0, | 286 | impl PatternFoldable for $ty { |
752 | Constructor::Tuple { arity } => *arity, | 287 | fn super_fold_with<F: PatternFolder>(&self, _: &mut F) -> Self { |
753 | Constructor::Enum(e) => { | 288 | Clone::clone(self) |
754 | match cx.db.enum_data(e.parent).variants[e.local_id].variant_data.as_ref() { | ||
755 | VariantData::Tuple(struct_field_data) => struct_field_data.len(), | ||
756 | VariantData::Record(struct_field_data) => struct_field_data.len(), | ||
757 | VariantData::Unit => 0, | ||
758 | } | 289 | } |
759 | } | 290 | } |
760 | &Constructor::Struct(s) => match cx.db.struct_data(s).variant_data.as_ref() { | 291 | )+ |
761 | VariantData::Tuple(struct_field_data) => struct_field_data.len(), | ||
762 | VariantData::Record(struct_field_data) => struct_field_data.len(), | ||
763 | VariantData::Unit => 0, | ||
764 | }, | ||
765 | }; | ||
766 | |||
767 | Ok(arity) | ||
768 | } | 292 | } |
293 | } | ||
769 | 294 | ||
770 | fn all_constructors(&self, cx: &MatchCheckCtx) -> Vec<Constructor> { | 295 | clone_impls! { LocalFieldId, Ty, Substitution, EnumVariantId } |
771 | match self { | 296 | |
772 | Constructor::Bool(_) => vec![Constructor::Bool(true), Constructor::Bool(false)], | 297 | impl PatternFoldable for FieldPat { |
773 | Constructor::Tuple { .. } | Constructor::Struct(_) => vec![*self], | 298 | fn super_fold_with<F: PatternFolder>(&self, folder: &mut F) -> Self { |
774 | Constructor::Enum(e) => cx | 299 | FieldPat { field: self.field.fold_with(folder), pattern: self.pattern.fold_with(folder) } |
775 | .db | ||
776 | .enum_data(e.parent) | ||
777 | .variants | ||
778 | .iter() | ||
779 | .map(|(local_id, _)| { | ||
780 | Constructor::Enum(EnumVariantId { parent: e.parent, local_id }) | ||
781 | }) | ||
782 | .collect(), | ||
783 | } | ||
784 | } | 300 | } |
785 | } | 301 | } |
786 | 302 | ||
787 | /// Returns the constructor for the given pattern. Should only return None | 303 | impl PatternFoldable for Pat { |
788 | /// in the case of a Wild pattern. | 304 | fn fold_with<F: PatternFolder>(&self, folder: &mut F) -> Self { |
789 | fn pat_constructor(cx: &MatchCheckCtx, pat: PatIdOrWild) -> MatchCheckResult<Option<Constructor>> { | 305 | folder.fold_pattern(self) |
790 | let res = match pat.as_pat(cx) { | 306 | } |
791 | Pat::Wild => None, | ||
792 | Pat::Tuple { .. } => { | ||
793 | let pat_id = pat.as_id().expect("we already know this pattern is not a wild"); | ||
794 | Some(Constructor::Tuple { | ||
795 | arity: cx.infer.type_of_pat[pat_id] | ||
796 | .as_tuple() | ||
797 | .ok_or(MatchCheckErr::Unknown)? | ||
798 | .len(&Interner), | ||
799 | }) | ||
800 | } | ||
801 | Pat::Lit(lit_expr) => match cx.body.exprs[lit_expr] { | ||
802 | Expr::Literal(Literal::Bool(val)) => Some(Constructor::Bool(val)), | ||
803 | _ => return Err(MatchCheckErr::NotImplemented), | ||
804 | }, | ||
805 | Pat::TupleStruct { .. } | Pat::Path(_) | Pat::Record { .. } => { | ||
806 | let pat_id = pat.as_id().expect("we already know this pattern is not a wild"); | ||
807 | let variant_id = | ||
808 | cx.infer.variant_resolution_for_pat(pat_id).ok_or(MatchCheckErr::Unknown)?; | ||
809 | match variant_id { | ||
810 | VariantId::EnumVariantId(enum_variant_id) => { | ||
811 | Some(Constructor::Enum(enum_variant_id)) | ||
812 | } | ||
813 | VariantId::StructId(struct_id) => Some(Constructor::Struct(struct_id)), | ||
814 | _ => return Err(MatchCheckErr::NotImplemented), | ||
815 | } | ||
816 | } | ||
817 | _ => return Err(MatchCheckErr::NotImplemented), | ||
818 | }; | ||
819 | 307 | ||
820 | Ok(res) | 308 | fn super_fold_with<F: PatternFolder>(&self, folder: &mut F) -> Self { |
309 | Pat { ty: self.ty.fold_with(folder), kind: self.kind.fold_with(folder) } | ||
310 | } | ||
821 | } | 311 | } |
822 | 312 | ||
823 | fn all_constructors_covered( | 313 | impl PatternFoldable for PatKind { |
824 | cx: &MatchCheckCtx, | 314 | fn fold_with<F: PatternFolder>(&self, folder: &mut F) -> Self { |
825 | constructor: &Constructor, | 315 | folder.fold_pattern_kind(self) |
826 | used_constructors: &[Constructor], | 316 | } |
827 | ) -> bool { | ||
828 | match constructor { | ||
829 | Constructor::Tuple { arity } => { | ||
830 | used_constructors.iter().any(|constructor| match constructor { | ||
831 | Constructor::Tuple { arity: used_arity } => arity == used_arity, | ||
832 | _ => false, | ||
833 | }) | ||
834 | } | ||
835 | Constructor::Bool(_) => { | ||
836 | if used_constructors.is_empty() { | ||
837 | return false; | ||
838 | } | ||
839 | |||
840 | let covers_true = | ||
841 | used_constructors.iter().any(|c| matches!(c, Constructor::Bool(true))); | ||
842 | let covers_false = | ||
843 | used_constructors.iter().any(|c| matches!(c, Constructor::Bool(false))); | ||
844 | 317 | ||
845 | covers_true && covers_false | 318 | fn super_fold_with<F: PatternFolder>(&self, folder: &mut F) -> Self { |
846 | } | 319 | match self { |
847 | Constructor::Enum(e) => cx.db.enum_data(e.parent).variants.iter().all(|(id, _)| { | 320 | PatKind::Wild => PatKind::Wild, |
848 | for constructor in used_constructors { | 321 | PatKind::Binding { subpattern } => { |
849 | if let Constructor::Enum(e) = constructor { | 322 | PatKind::Binding { subpattern: subpattern.fold_with(folder) } |
850 | if id == e.local_id { | ||
851 | return true; | ||
852 | } | ||
853 | } | ||
854 | } | 323 | } |
855 | 324 | PatKind::Variant { substs, enum_variant, subpatterns } => PatKind::Variant { | |
856 | false | 325 | substs: substs.fold_with(folder), |
857 | }), | 326 | enum_variant: enum_variant.fold_with(folder), |
858 | &Constructor::Struct(s) => used_constructors.iter().any(|constructor| match constructor { | 327 | subpatterns: subpatterns.fold_with(folder), |
859 | &Constructor::Struct(sid) => sid == s, | 328 | }, |
860 | _ => false, | 329 | PatKind::Leaf { subpatterns } => { |
861 | }), | 330 | PatKind::Leaf { subpatterns: subpatterns.fold_with(folder) } |
331 | } | ||
332 | PatKind::Deref { subpattern } => { | ||
333 | PatKind::Deref { subpattern: subpattern.fold_with(folder) } | ||
334 | } | ||
335 | &PatKind::LiteralBool { value } => PatKind::LiteralBool { value }, | ||
336 | PatKind::Or { pats } => PatKind::Or { pats: pats.fold_with(folder) }, | ||
337 | } | ||
862 | } | 338 | } |
863 | } | 339 | } |
864 | 340 | ||
@@ -1514,6 +990,41 @@ fn main() { | |||
1514 | "#, | 990 | "#, |
1515 | ); | 991 | ); |
1516 | } | 992 | } |
993 | |||
994 | #[test] | ||
995 | fn no_panic_at_unimplemented_subpattern_type() { | ||
996 | check_diagnostics( | ||
997 | r#" | ||
998 | struct S { a: char} | ||
999 | fn main(v: S) { | ||
1000 | match v { S{ a } => {} } | ||
1001 | match v { S{ a: _x } => {} } | ||
1002 | match v { S{ a: 'a' } => {} } | ||
1003 | match v { S{..} => {} } | ||
1004 | match v { _ => {} } | ||
1005 | match v { } | ||
1006 | //^ Missing match arm | ||
1007 | } | ||
1008 | "#, | ||
1009 | ); | ||
1010 | } | ||
1011 | |||
1012 | #[test] | ||
1013 | fn binding() { | ||
1014 | check_diagnostics( | ||
1015 | r#" | ||
1016 | fn main() { | ||
1017 | match true { | ||
1018 | _x @ true => {} | ||
1019 | false => {} | ||
1020 | } | ||
1021 | match true { _x @ true => {} } | ||
1022 | //^^^^ Missing match arm | ||
1023 | } | ||
1024 | "#, | ||
1025 | ); | ||
1026 | } | ||
1027 | |||
1517 | mod false_negatives { | 1028 | mod false_negatives { |
1518 | //! The implementation of match checking here is a work in progress. As we roll this out, we | 1029 | //! The implementation of match checking here is a work in progress. As we roll this out, we |
1519 | //! prefer false negatives to false positives (ideally there would be no false positives). This | 1030 | //! prefer false negatives to false positives (ideally there would be no false positives). This |
diff --git a/crates/hir_ty/src/diagnostics/pattern/deconstruct_pat.rs b/crates/hir_ty/src/diagnostics/match_check/deconstruct_pat.rs index 9fa82a952..9fa82a952 100644 --- a/crates/hir_ty/src/diagnostics/pattern/deconstruct_pat.rs +++ b/crates/hir_ty/src/diagnostics/match_check/deconstruct_pat.rs | |||
diff --git a/crates/hir_ty/src/diagnostics/pattern/pat_util.rs b/crates/hir_ty/src/diagnostics/match_check/pat_util.rs index eb0b07a52..eb0b07a52 100644 --- a/crates/hir_ty/src/diagnostics/pattern/pat_util.rs +++ b/crates/hir_ty/src/diagnostics/match_check/pat_util.rs | |||
diff --git a/crates/hir_ty/src/diagnostics/pattern/usefulness.rs b/crates/hir_ty/src/diagnostics/match_check/usefulness.rs index b01e3557c..b01e3557c 100644 --- a/crates/hir_ty/src/diagnostics/pattern/usefulness.rs +++ b/crates/hir_ty/src/diagnostics/match_check/usefulness.rs | |||
diff --git a/crates/hir_ty/src/diagnostics/pattern.rs b/crates/hir_ty/src/diagnostics/pattern.rs deleted file mode 100644 index f8d2e9baa..000000000 --- a/crates/hir_ty/src/diagnostics/pattern.rs +++ /dev/null | |||
@@ -1,1040 +0,0 @@ | |||
1 | //! Validation of matches. | ||
2 | //! | ||
3 | //! This module provides lowering from [hir_def::expr::Pat] to [self::Pat] and match | ||
4 | //! checking algorithm. | ||
5 | //! | ||
6 | //! It is modeled on the rustc module `rustc_mir_build::thir::pattern`. | ||
7 | |||
8 | mod deconstruct_pat; | ||
9 | mod pat_util; | ||
10 | pub(crate) mod usefulness; | ||
11 | |||
12 | use hir_def::{body::Body, EnumVariantId, LocalFieldId, VariantId}; | ||
13 | use la_arena::Idx; | ||
14 | |||
15 | use crate::{db::HirDatabase, InferenceResult, Interner, Substitution, Ty, TyKind}; | ||
16 | |||
17 | use self::pat_util::EnumerateAndAdjustIterator; | ||
18 | |||
19 | pub(crate) type PatId = Idx<Pat>; | ||
20 | |||
21 | #[derive(Clone, Debug)] | ||
22 | pub(crate) enum PatternError { | ||
23 | Unimplemented, | ||
24 | UnresolvedVariant, | ||
25 | } | ||
26 | |||
27 | #[derive(Clone, Debug, PartialEq)] | ||
28 | pub(crate) struct FieldPat { | ||
29 | pub(crate) field: LocalFieldId, | ||
30 | pub(crate) pattern: Pat, | ||
31 | } | ||
32 | |||
33 | #[derive(Clone, Debug, PartialEq)] | ||
34 | pub(crate) struct Pat { | ||
35 | pub(crate) ty: Ty, | ||
36 | pub(crate) kind: Box<PatKind>, | ||
37 | } | ||
38 | |||
39 | impl Pat { | ||
40 | pub(crate) fn wildcard_from_ty(ty: &Ty) -> Self { | ||
41 | Pat { ty: ty.clone(), kind: Box::new(PatKind::Wild) } | ||
42 | } | ||
43 | } | ||
44 | |||
45 | /// Close relative to `rustc_mir_build::thir::pattern::PatKind` | ||
46 | #[derive(Clone, Debug, PartialEq)] | ||
47 | pub(crate) enum PatKind { | ||
48 | Wild, | ||
49 | |||
50 | /// `x`, `ref x`, `x @ P`, etc. | ||
51 | Binding { | ||
52 | subpattern: Option<Pat>, | ||
53 | }, | ||
54 | |||
55 | /// `Foo(...)` or `Foo{...}` or `Foo`, where `Foo` is a variant name from an ADT with | ||
56 | /// multiple variants. | ||
57 | Variant { | ||
58 | substs: Substitution, | ||
59 | enum_variant: EnumVariantId, | ||
60 | subpatterns: Vec<FieldPat>, | ||
61 | }, | ||
62 | |||
63 | /// `(...)`, `Foo(...)`, `Foo{...}`, or `Foo`, where `Foo` is a variant name from an ADT with | ||
64 | /// a single variant. | ||
65 | Leaf { | ||
66 | subpatterns: Vec<FieldPat>, | ||
67 | }, | ||
68 | |||
69 | /// `box P`, `&P`, `&mut P`, etc. | ||
70 | Deref { | ||
71 | subpattern: Pat, | ||
72 | }, | ||
73 | |||
74 | // FIXME: for now, only bool literals are implemented | ||
75 | LiteralBool { | ||
76 | value: bool, | ||
77 | }, | ||
78 | |||
79 | /// An or-pattern, e.g. `p | q`. | ||
80 | /// Invariant: `pats.len() >= 2`. | ||
81 | Or { | ||
82 | pats: Vec<Pat>, | ||
83 | }, | ||
84 | } | ||
85 | |||
86 | pub(crate) struct PatCtxt<'a> { | ||
87 | db: &'a dyn HirDatabase, | ||
88 | infer: &'a InferenceResult, | ||
89 | body: &'a Body, | ||
90 | pub(crate) errors: Vec<PatternError>, | ||
91 | } | ||
92 | |||
93 | impl<'a> PatCtxt<'a> { | ||
94 | pub(crate) fn new(db: &'a dyn HirDatabase, infer: &'a InferenceResult, body: &'a Body) -> Self { | ||
95 | Self { db, infer, body, errors: Vec::new() } | ||
96 | } | ||
97 | |||
98 | pub(crate) fn lower_pattern(&mut self, pat: hir_def::expr::PatId) -> Pat { | ||
99 | // FIXME: implement pattern adjustments (implicit pattern dereference; "RFC 2005-match-ergonomics") | ||
100 | // More info https://github.com/rust-lang/rust/issues/42640#issuecomment-313535089 | ||
101 | let unadjusted_pat = self.lower_pattern_unadjusted(pat); | ||
102 | unadjusted_pat | ||
103 | } | ||
104 | |||
105 | fn lower_pattern_unadjusted(&mut self, pat: hir_def::expr::PatId) -> Pat { | ||
106 | let ty = &self.infer[pat]; | ||
107 | let variant = self.infer.variant_resolution_for_pat(pat); | ||
108 | |||
109 | let kind = match self.body[pat] { | ||
110 | hir_def::expr::Pat::Wild => PatKind::Wild, | ||
111 | |||
112 | hir_def::expr::Pat::Lit(expr) => self.lower_lit(expr), | ||
113 | |||
114 | hir_def::expr::Pat::Path(ref path) => { | ||
115 | return self.lower_path(pat, path); | ||
116 | } | ||
117 | |||
118 | hir_def::expr::Pat::Tuple { ref args, ellipsis } => { | ||
119 | let arity = match *ty.kind(&Interner) { | ||
120 | TyKind::Tuple(arity, _) => arity, | ||
121 | _ => panic!("unexpected type for tuple pattern: {:?}", ty), | ||
122 | }; | ||
123 | let subpatterns = self.lower_tuple_subpats(args, arity, ellipsis); | ||
124 | PatKind::Leaf { subpatterns } | ||
125 | } | ||
126 | |||
127 | hir_def::expr::Pat::Bind { subpat, .. } => { | ||
128 | PatKind::Binding { subpattern: self.lower_opt_pattern(subpat) } | ||
129 | } | ||
130 | |||
131 | hir_def::expr::Pat::TupleStruct { ref args, ellipsis, .. } if variant.is_some() => { | ||
132 | let expected_len = variant.unwrap().variant_data(self.db.upcast()).fields().len(); | ||
133 | let subpatterns = self.lower_tuple_subpats(args, expected_len, ellipsis); | ||
134 | self.lower_variant_or_leaf(pat, ty, subpatterns) | ||
135 | } | ||
136 | |||
137 | hir_def::expr::Pat::Record { ref args, .. } if variant.is_some() => { | ||
138 | let variant_data = variant.unwrap().variant_data(self.db.upcast()); | ||
139 | let subpatterns = args | ||
140 | .iter() | ||
141 | .map(|field| FieldPat { | ||
142 | // XXX(iDawer): field lookup is inefficient | ||
143 | field: variant_data.field(&field.name).unwrap(), | ||
144 | pattern: self.lower_pattern(field.pat), | ||
145 | }) | ||
146 | .collect(); | ||
147 | self.lower_variant_or_leaf(pat, ty, subpatterns) | ||
148 | } | ||
149 | hir_def::expr::Pat::TupleStruct { .. } | hir_def::expr::Pat::Record { .. } => { | ||
150 | self.errors.push(PatternError::UnresolvedVariant); | ||
151 | PatKind::Wild | ||
152 | } | ||
153 | |||
154 | hir_def::expr::Pat::Or(ref pats) => PatKind::Or { pats: self.lower_patterns(pats) }, | ||
155 | |||
156 | _ => { | ||
157 | self.errors.push(PatternError::Unimplemented); | ||
158 | PatKind::Wild | ||
159 | } | ||
160 | }; | ||
161 | |||
162 | Pat { ty: ty.clone(), kind: Box::new(kind) } | ||
163 | } | ||
164 | |||
165 | fn lower_tuple_subpats( | ||
166 | &mut self, | ||
167 | pats: &[hir_def::expr::PatId], | ||
168 | expected_len: usize, | ||
169 | ellipsis: Option<usize>, | ||
170 | ) -> Vec<FieldPat> { | ||
171 | pats.iter() | ||
172 | .enumerate_and_adjust(expected_len, ellipsis) | ||
173 | .map(|(i, &subpattern)| FieldPat { | ||
174 | field: LocalFieldId::from_raw((i as u32).into()), | ||
175 | pattern: self.lower_pattern(subpattern), | ||
176 | }) | ||
177 | .collect() | ||
178 | } | ||
179 | |||
180 | fn lower_patterns(&mut self, pats: &[hir_def::expr::PatId]) -> Vec<Pat> { | ||
181 | pats.iter().map(|&p| self.lower_pattern(p)).collect() | ||
182 | } | ||
183 | |||
184 | fn lower_opt_pattern(&mut self, pat: Option<hir_def::expr::PatId>) -> Option<Pat> { | ||
185 | pat.map(|p| self.lower_pattern(p)) | ||
186 | } | ||
187 | |||
188 | fn lower_variant_or_leaf( | ||
189 | &mut self, | ||
190 | pat: hir_def::expr::PatId, | ||
191 | ty: &Ty, | ||
192 | subpatterns: Vec<FieldPat>, | ||
193 | ) -> PatKind { | ||
194 | let kind = match self.infer.variant_resolution_for_pat(pat) { | ||
195 | Some(variant_id) => { | ||
196 | if let VariantId::EnumVariantId(enum_variant) = variant_id { | ||
197 | let substs = match ty.kind(&Interner) { | ||
198 | TyKind::Adt(_, substs) | TyKind::FnDef(_, substs) => substs.clone(), | ||
199 | TyKind::Error => { | ||
200 | return PatKind::Wild; | ||
201 | } | ||
202 | _ => panic!("inappropriate type for def: {:?}", ty), | ||
203 | }; | ||
204 | PatKind::Variant { substs, enum_variant, subpatterns } | ||
205 | } else { | ||
206 | PatKind::Leaf { subpatterns } | ||
207 | } | ||
208 | } | ||
209 | None => { | ||
210 | self.errors.push(PatternError::UnresolvedVariant); | ||
211 | PatKind::Wild | ||
212 | } | ||
213 | }; | ||
214 | kind | ||
215 | } | ||
216 | |||
217 | fn lower_path(&mut self, pat: hir_def::expr::PatId, _path: &hir_def::path::Path) -> Pat { | ||
218 | let ty = &self.infer[pat]; | ||
219 | |||
220 | let pat_from_kind = |kind| Pat { ty: ty.clone(), kind: Box::new(kind) }; | ||
221 | |||
222 | match self.infer.variant_resolution_for_pat(pat) { | ||
223 | Some(_) => pat_from_kind(self.lower_variant_or_leaf(pat, ty, Vec::new())), | ||
224 | None => { | ||
225 | self.errors.push(PatternError::UnresolvedVariant); | ||
226 | pat_from_kind(PatKind::Wild) | ||
227 | } | ||
228 | } | ||
229 | } | ||
230 | |||
231 | fn lower_lit(&mut self, expr: hir_def::expr::ExprId) -> PatKind { | ||
232 | use hir_def::expr::{Expr, Literal::Bool}; | ||
233 | |||
234 | match self.body[expr] { | ||
235 | Expr::Literal(Bool(value)) => PatKind::LiteralBool { value }, | ||
236 | _ => { | ||
237 | self.errors.push(PatternError::Unimplemented); | ||
238 | PatKind::Wild | ||
239 | } | ||
240 | } | ||
241 | } | ||
242 | } | ||
243 | |||
244 | pub(crate) trait PatternFoldable: Sized { | ||
245 | fn fold_with<F: PatternFolder>(&self, folder: &mut F) -> Self { | ||
246 | self.super_fold_with(folder) | ||
247 | } | ||
248 | |||
249 | fn super_fold_with<F: PatternFolder>(&self, folder: &mut F) -> Self; | ||
250 | } | ||
251 | |||
252 | pub(crate) trait PatternFolder: Sized { | ||
253 | fn fold_pattern(&mut self, pattern: &Pat) -> Pat { | ||
254 | pattern.super_fold_with(self) | ||
255 | } | ||
256 | |||
257 | fn fold_pattern_kind(&mut self, kind: &PatKind) -> PatKind { | ||
258 | kind.super_fold_with(self) | ||
259 | } | ||
260 | } | ||
261 | |||
262 | impl<T: PatternFoldable> PatternFoldable for Box<T> { | ||
263 | fn super_fold_with<F: PatternFolder>(&self, folder: &mut F) -> Self { | ||
264 | let content: T = (**self).fold_with(folder); | ||
265 | Box::new(content) | ||
266 | } | ||
267 | } | ||
268 | |||
269 | impl<T: PatternFoldable> PatternFoldable for Vec<T> { | ||
270 | fn super_fold_with<F: PatternFolder>(&self, folder: &mut F) -> Self { | ||
271 | self.iter().map(|t| t.fold_with(folder)).collect() | ||
272 | } | ||
273 | } | ||
274 | |||
275 | impl<T: PatternFoldable> PatternFoldable for Option<T> { | ||
276 | fn super_fold_with<F: PatternFolder>(&self, folder: &mut F) -> Self { | ||
277 | self.as_ref().map(|t| t.fold_with(folder)) | ||
278 | } | ||
279 | } | ||
280 | |||
281 | macro_rules! clone_impls { | ||
282 | ($($ty:ty),+) => { | ||
283 | $( | ||
284 | impl PatternFoldable for $ty { | ||
285 | fn super_fold_with<F: PatternFolder>(&self, _: &mut F) -> Self { | ||
286 | Clone::clone(self) | ||
287 | } | ||
288 | } | ||
289 | )+ | ||
290 | } | ||
291 | } | ||
292 | |||
293 | clone_impls! { LocalFieldId, Ty, Substitution, EnumVariantId } | ||
294 | |||
295 | impl PatternFoldable for FieldPat { | ||
296 | fn super_fold_with<F: PatternFolder>(&self, folder: &mut F) -> Self { | ||
297 | FieldPat { field: self.field.fold_with(folder), pattern: self.pattern.fold_with(folder) } | ||
298 | } | ||
299 | } | ||
300 | |||
301 | impl PatternFoldable for Pat { | ||
302 | fn fold_with<F: PatternFolder>(&self, folder: &mut F) -> Self { | ||
303 | folder.fold_pattern(self) | ||
304 | } | ||
305 | |||
306 | fn super_fold_with<F: PatternFolder>(&self, folder: &mut F) -> Self { | ||
307 | Pat { ty: self.ty.fold_with(folder), kind: self.kind.fold_with(folder) } | ||
308 | } | ||
309 | } | ||
310 | |||
311 | impl PatternFoldable for PatKind { | ||
312 | fn fold_with<F: PatternFolder>(&self, folder: &mut F) -> Self { | ||
313 | folder.fold_pattern_kind(self) | ||
314 | } | ||
315 | |||
316 | fn super_fold_with<F: PatternFolder>(&self, folder: &mut F) -> Self { | ||
317 | match self { | ||
318 | PatKind::Wild => PatKind::Wild, | ||
319 | PatKind::Binding { subpattern } => { | ||
320 | PatKind::Binding { subpattern: subpattern.fold_with(folder) } | ||
321 | } | ||
322 | PatKind::Variant { substs, enum_variant, subpatterns } => PatKind::Variant { | ||
323 | substs: substs.fold_with(folder), | ||
324 | enum_variant: enum_variant.fold_with(folder), | ||
325 | subpatterns: subpatterns.fold_with(folder), | ||
326 | }, | ||
327 | PatKind::Leaf { subpatterns } => { | ||
328 | PatKind::Leaf { subpatterns: subpatterns.fold_with(folder) } | ||
329 | } | ||
330 | PatKind::Deref { subpattern } => { | ||
331 | PatKind::Deref { subpattern: subpattern.fold_with(folder) } | ||
332 | } | ||
333 | &PatKind::LiteralBool { value } => PatKind::LiteralBool { value }, | ||
334 | PatKind::Or { pats } => PatKind::Or { pats: pats.fold_with(folder) }, | ||
335 | } | ||
336 | } | ||
337 | } | ||
338 | |||
339 | #[cfg(test)] | ||
340 | mod tests { | ||
341 | use crate::diagnostics::tests::check_diagnostics; | ||
342 | |||
343 | #[test] | ||
344 | fn empty_tuple() { | ||
345 | check_diagnostics( | ||
346 | r#" | ||
347 | fn main() { | ||
348 | match () { } | ||
349 | //^^ Missing match arm | ||
350 | match (()) { } | ||
351 | //^^^^ Missing match arm | ||
352 | |||
353 | match () { _ => (), } | ||
354 | match () { () => (), } | ||
355 | match (()) { (()) => (), } | ||
356 | } | ||
357 | "#, | ||
358 | ); | ||
359 | } | ||
360 | |||
361 | #[test] | ||
362 | fn tuple_of_two_empty_tuple() { | ||
363 | check_diagnostics( | ||
364 | r#" | ||
365 | fn main() { | ||
366 | match ((), ()) { } | ||
367 | //^^^^^^^^ Missing match arm | ||
368 | |||
369 | match ((), ()) { ((), ()) => (), } | ||
370 | } | ||
371 | "#, | ||
372 | ); | ||
373 | } | ||
374 | |||
375 | #[test] | ||
376 | fn boolean() { | ||
377 | check_diagnostics( | ||
378 | r#" | ||
379 | fn test_main() { | ||
380 | match false { } | ||
381 | //^^^^^ Missing match arm | ||
382 | match false { true => (), } | ||
383 | //^^^^^ Missing match arm | ||
384 | match (false, true) {} | ||
385 | //^^^^^^^^^^^^^ Missing match arm | ||
386 | match (false, true) { (true, true) => (), } | ||
387 | //^^^^^^^^^^^^^ Missing match arm | ||
388 | match (false, true) { | ||
389 | //^^^^^^^^^^^^^ Missing match arm | ||
390 | (false, true) => (), | ||
391 | (false, false) => (), | ||
392 | (true, false) => (), | ||
393 | } | ||
394 | match (false, true) { (true, _x) => (), } | ||
395 | //^^^^^^^^^^^^^ Missing match arm | ||
396 | |||
397 | match false { true => (), false => (), } | ||
398 | match (false, true) { | ||
399 | (false, _) => (), | ||
400 | (true, false) => (), | ||
401 | (_, true) => (), | ||
402 | } | ||
403 | match (false, true) { | ||
404 | (true, true) => (), | ||
405 | (true, false) => (), | ||
406 | (false, true) => (), | ||
407 | (false, false) => (), | ||
408 | } | ||
409 | match (false, true) { | ||
410 | (true, _x) => (), | ||
411 | (false, true) => (), | ||
412 | (false, false) => (), | ||
413 | } | ||
414 | match (false, true, false) { | ||
415 | (false, ..) => (), | ||
416 | (true, ..) => (), | ||
417 | } | ||
418 | match (false, true, false) { | ||
419 | (.., false) => (), | ||
420 | (.., true) => (), | ||
421 | } | ||
422 | match (false, true, false) { (..) => (), } | ||
423 | } | ||
424 | "#, | ||
425 | ); | ||
426 | } | ||
427 | |||
428 | #[test] | ||
429 | fn tuple_of_tuple_and_bools() { | ||
430 | check_diagnostics( | ||
431 | r#" | ||
432 | fn main() { | ||
433 | match (false, ((), false)) {} | ||
434 | //^^^^^^^^^^^^^^^^^^^^ Missing match arm | ||
435 | match (false, ((), false)) { (true, ((), true)) => (), } | ||
436 | //^^^^^^^^^^^^^^^^^^^^ Missing match arm | ||
437 | match (false, ((), false)) { (true, _) => (), } | ||
438 | //^^^^^^^^^^^^^^^^^^^^ Missing match arm | ||
439 | |||
440 | match (false, ((), false)) { | ||
441 | (true, ((), true)) => (), | ||
442 | (true, ((), false)) => (), | ||
443 | (false, ((), true)) => (), | ||
444 | (false, ((), false)) => (), | ||
445 | } | ||
446 | match (false, ((), false)) { | ||
447 | (true, ((), true)) => (), | ||
448 | (true, ((), false)) => (), | ||
449 | (false, _) => (), | ||
450 | } | ||
451 | } | ||
452 | "#, | ||
453 | ); | ||
454 | } | ||
455 | |||
456 | #[test] | ||
457 | fn enums() { | ||
458 | check_diagnostics( | ||
459 | r#" | ||
460 | enum Either { A, B, } | ||
461 | |||
462 | fn main() { | ||
463 | match Either::A { } | ||
464 | //^^^^^^^^^ Missing match arm | ||
465 | match Either::B { Either::A => (), } | ||
466 | //^^^^^^^^^ Missing match arm | ||
467 | |||
468 | match &Either::B { | ||
469 | //^^^^^^^^^^ Missing match arm | ||
470 | Either::A => (), | ||
471 | } | ||
472 | |||
473 | match Either::B { | ||
474 | Either::A => (), Either::B => (), | ||
475 | } | ||
476 | match &Either::B { | ||
477 | Either::A => (), Either::B => (), | ||
478 | } | ||
479 | } | ||
480 | "#, | ||
481 | ); | ||
482 | } | ||
483 | |||
484 | #[test] | ||
485 | fn enum_containing_bool() { | ||
486 | check_diagnostics( | ||
487 | r#" | ||
488 | enum Either { A(bool), B } | ||
489 | |||
490 | fn main() { | ||
491 | match Either::B { } | ||
492 | //^^^^^^^^^ Missing match arm | ||
493 | match Either::B { | ||
494 | //^^^^^^^^^ Missing match arm | ||
495 | Either::A(true) => (), Either::B => () | ||
496 | } | ||
497 | |||
498 | match Either::B { | ||
499 | Either::A(true) => (), | ||
500 | Either::A(false) => (), | ||
501 | Either::B => (), | ||
502 | } | ||
503 | match Either::B { | ||
504 | Either::B => (), | ||
505 | _ => (), | ||
506 | } | ||
507 | match Either::B { | ||
508 | Either::A(_) => (), | ||
509 | Either::B => (), | ||
510 | } | ||
511 | |||
512 | } | ||
513 | "#, | ||
514 | ); | ||
515 | } | ||
516 | |||
517 | #[test] | ||
518 | fn enum_different_sizes() { | ||
519 | check_diagnostics( | ||
520 | r#" | ||
521 | enum Either { A(bool), B(bool, bool) } | ||
522 | |||
523 | fn main() { | ||
524 | match Either::A(false) { | ||
525 | //^^^^^^^^^^^^^^^^ Missing match arm | ||
526 | Either::A(_) => (), | ||
527 | Either::B(false, _) => (), | ||
528 | } | ||
529 | |||
530 | match Either::A(false) { | ||
531 | Either::A(_) => (), | ||
532 | Either::B(true, _) => (), | ||
533 | Either::B(false, _) => (), | ||
534 | } | ||
535 | match Either::A(false) { | ||
536 | Either::A(true) | Either::A(false) => (), | ||
537 | Either::B(true, _) => (), | ||
538 | Either::B(false, _) => (), | ||
539 | } | ||
540 | } | ||
541 | "#, | ||
542 | ); | ||
543 | } | ||
544 | |||
545 | #[test] | ||
546 | fn tuple_of_enum_no_diagnostic() { | ||
547 | check_diagnostics( | ||
548 | r#" | ||
549 | enum Either { A(bool), B(bool, bool) } | ||
550 | enum Either2 { C, D } | ||
551 | |||
552 | fn main() { | ||
553 | match (Either::A(false), Either2::C) { | ||
554 | (Either::A(true), _) | (Either::A(false), _) => (), | ||
555 | (Either::B(true, _), Either2::C) => (), | ||
556 | (Either::B(false, _), Either2::C) => (), | ||
557 | (Either::B(_, _), Either2::D) => (), | ||
558 | } | ||
559 | } | ||
560 | "#, | ||
561 | ); | ||
562 | } | ||
563 | |||
564 | #[test] | ||
565 | fn or_pattern_no_diagnostic() { | ||
566 | check_diagnostics( | ||
567 | r#" | ||
568 | enum Either {A, B} | ||
569 | |||
570 | fn main() { | ||
571 | match (Either::A, Either::B) { | ||
572 | (Either::A | Either::B, _) => (), | ||
573 | } | ||
574 | }"#, | ||
575 | ) | ||
576 | } | ||
577 | |||
578 | #[test] | ||
579 | fn mismatched_types() { | ||
580 | // Match statements with arms that don't match the | ||
581 | // expression pattern do not fire this diagnostic. | ||
582 | check_diagnostics( | ||
583 | r#" | ||
584 | enum Either { A, B } | ||
585 | enum Either2 { C, D } | ||
586 | |||
587 | fn main() { | ||
588 | match Either::A { | ||
589 | Either2::C => (), | ||
590 | Either2::D => (), | ||
591 | } | ||
592 | match (true, false) { | ||
593 | (true, false, true) => (), | ||
594 | (true) => (), | ||
595 | } | ||
596 | match (0) { () => () } | ||
597 | match Unresolved::Bar { Unresolved::Baz => () } | ||
598 | } | ||
599 | "#, | ||
600 | ); | ||
601 | } | ||
602 | |||
603 | #[test] | ||
604 | fn malformed_match_arm_tuple_enum_missing_pattern() { | ||
605 | // We are testing to be sure we don't panic here when the match | ||
606 | // arm `Either::B` is missing its pattern. | ||
607 | check_diagnostics( | ||
608 | r#" | ||
609 | enum Either { A, B(u32) } | ||
610 | |||
611 | fn main() { | ||
612 | match Either::A { | ||
613 | Either::A => (), | ||
614 | Either::B() => (), | ||
615 | } | ||
616 | } | ||
617 | "#, | ||
618 | ); | ||
619 | } | ||
620 | |||
621 | #[test] | ||
622 | fn expr_diverges() { | ||
623 | check_diagnostics( | ||
624 | r#" | ||
625 | enum Either { A, B } | ||
626 | |||
627 | fn main() { | ||
628 | match loop {} { | ||
629 | Either::A => (), | ||
630 | Either::B => (), | ||
631 | } | ||
632 | match loop {} { | ||
633 | Either::A => (), | ||
634 | } | ||
635 | match loop { break Foo::A } { | ||
636 | //^^^^^^^^^^^^^^^^^^^^^ Missing match arm | ||
637 | Either::A => (), | ||
638 | } | ||
639 | match loop { break Foo::A } { | ||
640 | Either::A => (), | ||
641 | Either::B => (), | ||
642 | } | ||
643 | } | ||
644 | "#, | ||
645 | ); | ||
646 | } | ||
647 | |||
648 | #[test] | ||
649 | fn expr_partially_diverges() { | ||
650 | check_diagnostics( | ||
651 | r#" | ||
652 | enum Either<T> { A(T), B } | ||
653 | |||
654 | fn foo() -> Either<!> { Either::B } | ||
655 | fn main() -> u32 { | ||
656 | match foo() { | ||
657 | Either::A(val) => val, | ||
658 | Either::B => 0, | ||
659 | } | ||
660 | } | ||
661 | "#, | ||
662 | ); | ||
663 | } | ||
664 | |||
665 | #[test] | ||
666 | fn enum_record() { | ||
667 | check_diagnostics( | ||
668 | r#" | ||
669 | enum Either { A { foo: bool }, B } | ||
670 | |||
671 | fn main() { | ||
672 | let a = Either::A { foo: true }; | ||
673 | match a { } | ||
674 | //^ Missing match arm | ||
675 | match a { Either::A { foo: true } => () } | ||
676 | //^ Missing match arm | ||
677 | match a { | ||
678 | Either::A { } => (), | ||
679 | //^^^^^^^^^ Missing structure fields: | ||
680 | // | - foo | ||
681 | Either::B => (), | ||
682 | } | ||
683 | match a { | ||
684 | //^ Missing match arm | ||
685 | Either::A { } => (), | ||
686 | } //^^^^^^^^^ Missing structure fields: | ||
687 | // | - foo | ||
688 | |||
689 | match a { | ||
690 | Either::A { foo: true } => (), | ||
691 | Either::A { foo: false } => (), | ||
692 | Either::B => (), | ||
693 | } | ||
694 | match a { | ||
695 | Either::A { foo: _ } => (), | ||
696 | Either::B => (), | ||
697 | } | ||
698 | } | ||
699 | "#, | ||
700 | ); | ||
701 | } | ||
702 | |||
703 | #[test] | ||
704 | fn enum_record_fields_out_of_order() { | ||
705 | check_diagnostics( | ||
706 | r#" | ||
707 | enum Either { | ||
708 | A { foo: bool, bar: () }, | ||
709 | B, | ||
710 | } | ||
711 | |||
712 | fn main() { | ||
713 | let a = Either::A { foo: true, bar: () }; | ||
714 | match a { | ||
715 | //^ Missing match arm | ||
716 | Either::A { bar: (), foo: false } => (), | ||
717 | Either::A { foo: true, bar: () } => (), | ||
718 | } | ||
719 | |||
720 | match a { | ||
721 | Either::A { bar: (), foo: false } => (), | ||
722 | Either::A { foo: true, bar: () } => (), | ||
723 | Either::B => (), | ||
724 | } | ||
725 | } | ||
726 | "#, | ||
727 | ); | ||
728 | } | ||
729 | |||
730 | #[test] | ||
731 | fn enum_record_ellipsis() { | ||
732 | check_diagnostics( | ||
733 | r#" | ||
734 | enum Either { | ||
735 | A { foo: bool, bar: bool }, | ||
736 | B, | ||
737 | } | ||
738 | |||
739 | fn main() { | ||
740 | let a = Either::B; | ||
741 | match a { | ||
742 | //^ Missing match arm | ||
743 | Either::A { foo: true, .. } => (), | ||
744 | Either::B => (), | ||
745 | } | ||
746 | match a { | ||
747 | //^ Missing match arm | ||
748 | Either::A { .. } => (), | ||
749 | } | ||
750 | |||
751 | match a { | ||
752 | Either::A { foo: true, .. } => (), | ||
753 | Either::A { foo: false, .. } => (), | ||
754 | Either::B => (), | ||
755 | } | ||
756 | |||
757 | match a { | ||
758 | Either::A { .. } => (), | ||
759 | Either::B => (), | ||
760 | } | ||
761 | } | ||
762 | "#, | ||
763 | ); | ||
764 | } | ||
765 | |||
766 | #[test] | ||
767 | fn enum_tuple_partial_ellipsis() { | ||
768 | check_diagnostics( | ||
769 | r#" | ||
770 | enum Either { | ||
771 | A(bool, bool, bool, bool), | ||
772 | B, | ||
773 | } | ||
774 | |||
775 | fn main() { | ||
776 | match Either::B { | ||
777 | //^^^^^^^^^ Missing match arm | ||
778 | Either::A(true, .., true) => (), | ||
779 | Either::A(true, .., false) => (), | ||
780 | Either::A(false, .., false) => (), | ||
781 | Either::B => (), | ||
782 | } | ||
783 | match Either::B { | ||
784 | //^^^^^^^^^ Missing match arm | ||
785 | Either::A(true, .., true) => (), | ||
786 | Either::A(true, .., false) => (), | ||
787 | Either::A(.., true) => (), | ||
788 | Either::B => (), | ||
789 | } | ||
790 | |||
791 | match Either::B { | ||
792 | Either::A(true, .., true) => (), | ||
793 | Either::A(true, .., false) => (), | ||
794 | Either::A(false, .., true) => (), | ||
795 | Either::A(false, .., false) => (), | ||
796 | Either::B => (), | ||
797 | } | ||
798 | match Either::B { | ||
799 | Either::A(true, .., true) => (), | ||
800 | Either::A(true, .., false) => (), | ||
801 | Either::A(.., true) => (), | ||
802 | Either::A(.., false) => (), | ||
803 | Either::B => (), | ||
804 | } | ||
805 | } | ||
806 | "#, | ||
807 | ); | ||
808 | } | ||
809 | |||
810 | #[test] | ||
811 | fn never() { | ||
812 | check_diagnostics( | ||
813 | r#" | ||
814 | enum Never {} | ||
815 | |||
816 | fn enum_(never: Never) { | ||
817 | match never {} | ||
818 | } | ||
819 | fn enum_ref(never: &Never) { | ||
820 | match never {} | ||
821 | //^^^^^ Missing match arm | ||
822 | } | ||
823 | fn bang(never: !) { | ||
824 | match never {} | ||
825 | } | ||
826 | "#, | ||
827 | ); | ||
828 | } | ||
829 | |||
830 | #[test] | ||
831 | fn unknown_type() { | ||
832 | check_diagnostics( | ||
833 | r#" | ||
834 | enum Option<T> { Some(T), None } | ||
835 | |||
836 | fn main() { | ||
837 | // `Never` is deliberately not defined so that it's an uninferred type. | ||
838 | match Option::<Never>::None { | ||
839 | None => (), | ||
840 | Some(never) => match never {}, | ||
841 | } | ||
842 | } | ||
843 | "#, | ||
844 | ); | ||
845 | } | ||
846 | |||
847 | #[test] | ||
848 | fn tuple_of_bools_with_ellipsis_at_end_missing_arm() { | ||
849 | check_diagnostics( | ||
850 | r#" | ||
851 | fn main() { | ||
852 | match (false, true, false) { | ||
853 | //^^^^^^^^^^^^^^^^^^^^ Missing match arm | ||
854 | (false, ..) => (), | ||
855 | } | ||
856 | }"#, | ||
857 | ); | ||
858 | } | ||
859 | |||
860 | #[test] | ||
861 | fn tuple_of_bools_with_ellipsis_at_beginning_missing_arm() { | ||
862 | check_diagnostics( | ||
863 | r#" | ||
864 | fn main() { | ||
865 | match (false, true, false) { | ||
866 | //^^^^^^^^^^^^^^^^^^^^ Missing match arm | ||
867 | (.., false) => (), | ||
868 | } | ||
869 | }"#, | ||
870 | ); | ||
871 | } | ||
872 | |||
873 | #[test] | ||
874 | fn tuple_of_bools_with_ellipsis_in_middle_missing_arm() { | ||
875 | check_diagnostics( | ||
876 | r#" | ||
877 | fn main() { | ||
878 | match (false, true, false) { | ||
879 | //^^^^^^^^^^^^^^^^^^^^ Missing match arm | ||
880 | (true, .., false) => (), | ||
881 | } | ||
882 | }"#, | ||
883 | ); | ||
884 | } | ||
885 | |||
886 | #[test] | ||
887 | fn record_struct() { | ||
888 | check_diagnostics( | ||
889 | r#"struct Foo { a: bool } | ||
890 | fn main(f: Foo) { | ||
891 | match f {} | ||
892 | //^ Missing match arm | ||
893 | match f { Foo { a: true } => () } | ||
894 | //^ Missing match arm | ||
895 | match &f { Foo { a: true } => () } | ||
896 | //^^ Missing match arm | ||
897 | match f { Foo { a: _ } => () } | ||
898 | match f { | ||
899 | Foo { a: true } => (), | ||
900 | Foo { a: false } => (), | ||
901 | } | ||
902 | match &f { | ||
903 | Foo { a: true } => (), | ||
904 | Foo { a: false } => (), | ||
905 | } | ||
906 | } | ||
907 | "#, | ||
908 | ); | ||
909 | } | ||
910 | |||
911 | #[test] | ||
912 | fn tuple_struct() { | ||
913 | check_diagnostics( | ||
914 | r#"struct Foo(bool); | ||
915 | fn main(f: Foo) { | ||
916 | match f {} | ||
917 | //^ Missing match arm | ||
918 | match f { Foo(true) => () } | ||
919 | //^ Missing match arm | ||
920 | match f { | ||
921 | Foo(true) => (), | ||
922 | Foo(false) => (), | ||
923 | } | ||
924 | } | ||
925 | "#, | ||
926 | ); | ||
927 | } | ||
928 | |||
929 | #[test] | ||
930 | fn unit_struct() { | ||
931 | check_diagnostics( | ||
932 | r#"struct Foo; | ||
933 | fn main(f: Foo) { | ||
934 | match f {} | ||
935 | //^ Missing match arm | ||
936 | match f { Foo => () } | ||
937 | } | ||
938 | "#, | ||
939 | ); | ||
940 | } | ||
941 | |||
942 | #[test] | ||
943 | fn record_struct_ellipsis() { | ||
944 | check_diagnostics( | ||
945 | r#"struct Foo { foo: bool, bar: bool } | ||
946 | fn main(f: Foo) { | ||
947 | match f { Foo { foo: true, .. } => () } | ||
948 | //^ Missing match arm | ||
949 | match f { | ||
950 | //^ Missing match arm | ||
951 | Foo { foo: true, .. } => (), | ||
952 | Foo { bar: false, .. } => () | ||
953 | } | ||
954 | match f { Foo { .. } => () } | ||
955 | match f { | ||
956 | Foo { foo: true, .. } => (), | ||
957 | Foo { foo: false, .. } => () | ||
958 | } | ||
959 | } | ||
960 | "#, | ||
961 | ); | ||
962 | } | ||
963 | |||
964 | #[test] | ||
965 | fn internal_or() { | ||
966 | check_diagnostics( | ||
967 | r#" | ||
968 | fn main() { | ||
969 | enum Either { A(bool), B } | ||
970 | match Either::B { | ||
971 | //^^^^^^^^^ Missing match arm | ||
972 | Either::A(true | false) => (), | ||
973 | } | ||
974 | } | ||
975 | "#, | ||
976 | ); | ||
977 | } | ||
978 | |||
979 | #[test] | ||
980 | fn no_panic_at_unimplemented_subpattern_type() { | ||
981 | check_diagnostics( | ||
982 | r#" | ||
983 | struct S { a: char} | ||
984 | fn main(v: S) { | ||
985 | match v { S{ a } => {} } | ||
986 | match v { S{ a: _x } => {} } | ||
987 | match v { S{ a: 'a' } => {} } | ||
988 | match v { S{..} => {} } | ||
989 | match v { _ => {} } | ||
990 | match v { } | ||
991 | //^ Missing match arm | ||
992 | } | ||
993 | "#, | ||
994 | ); | ||
995 | } | ||
996 | |||
997 | #[test] | ||
998 | fn binding() { | ||
999 | check_diagnostics( | ||
1000 | r#" | ||
1001 | fn main() { | ||
1002 | match true { | ||
1003 | _x @ true => {} | ||
1004 | false => {} | ||
1005 | } | ||
1006 | match true { _x @ true => {} } | ||
1007 | //^^^^ Missing match arm | ||
1008 | } | ||
1009 | "#, | ||
1010 | ); | ||
1011 | } | ||
1012 | |||
1013 | mod false_negatives { | ||
1014 | //! The implementation of match checking here is a work in progress. As we roll this out, we | ||
1015 | //! prefer false negatives to false positives (ideally there would be no false positives). This | ||
1016 | //! test module should document known false negatives. Eventually we will have a complete | ||
1017 | //! implementation of match checking and this module will be empty. | ||
1018 | //! | ||
1019 | //! The reasons for documenting known false negatives: | ||
1020 | //! | ||
1021 | //! 1. It acts as a backlog of work that can be done to improve the behavior of the system. | ||
1022 | //! 2. It ensures the code doesn't panic when handling these cases. | ||
1023 | use super::*; | ||
1024 | |||
1025 | #[test] | ||
1026 | fn integers() { | ||
1027 | // We don't currently check integer exhaustiveness. | ||
1028 | check_diagnostics( | ||
1029 | r#" | ||
1030 | fn main() { | ||
1031 | match 5 { | ||
1032 | 10 => (), | ||
1033 | 11..20 => (), | ||
1034 | } | ||
1035 | } | ||
1036 | "#, | ||
1037 | ); | ||
1038 | } | ||
1039 | } | ||
1040 | } | ||