-
Notifications
You must be signed in to change notification settings - Fork 12.8k
New issue
Have a question about this project? Sign up for a free GitHub account to open an issue and contact its maintainers and the community.
By clicking “Sign up for GitHub”, you agree to our terms of service and privacy statement. We’ll occasionally send you account related emails.
Already on GitHub? Sign in to your account
Stabilize #![feature(slice_patterns)]
in 1.42.0
#67712
Conversation
Team member @Centril has proposed to merge this. The next step is review by the rest of the tagged team members: No concerns currently listed. Once a majority of reviewers approve (and at most 2 approvals are outstanding), this will enter its final comment period. If you spot a major issue that hasn't been raised at any point in this process, please speak up! See this document for info about what commands tagged team members can give me. |
Incredible PR OP. Thanks @matthewjasper and @Centril. |
This looks great! Thanks for everyone’s work on the implementation and on such a detailed report.
This answers a question I had when reading "A quick user guide": no more than one rest pattern may be used in a given slice pattern or array pattern. This would be worth pointing out in high-level documentation for this feature. Do we have such docs or is The Reference the closest?
One could imagine bindings for such rest patterns that create a smaller tuple: Is
Taking this literally suggests that a single pattern that matches any slice is mandatory, and this example would fail exhaustiveness checking: match some_slice: &[T] {
&[] => "zero",
&[_a] => "one",
&[_a, _b] => "two",
&[_a, _b, _c, ..] => "many",
} Is that the case, or is the compiler able to reason about the union of matched slice lengths? If the latter, I think “an exhaustive match without a rest pattern is impossible” would be more correct. |
I've added a short section to the user-guide part of the report. :) The reference only documents stable Rust, and so it will need to be updated with some of the contents from this report.
Heh... I managed to forget this one in the "Related future work". I've added it now. That said, supporting
No, a struct pattern does not consist of a sequence of patterns, but rather a sequence of
The example results in an exhaustive match: #![feature(slice_patterns)]
fn main() {
let some_slice: &[u8] = &[];
match some_slice {
&[] => {}
&[_a] => {}
&[_a, _b] => {}
&[_a, _b, _c, ..] => {}
}
}
The compiler can reason about the fact that e.g. together, |
I should have clarified that I am not particularly in favor of adding support for bindings for sub-tuples. I only meant to confirm that they are not supported or planned. (The way the report mentioned rest patterns without bindings in tuples after rest patterns without and with bindings in slices suggested that this might be the "natural" next step.) I feel they are much less useful since tuples are usually heterogeneous, and they have complications (as you said with references) that I think are not worth getting into. |
This comment has been minimized.
This comment has been minimized.
36b60e0
to
23a5de7
Compare
src/test/ui/borrowck/borrowck-slice-pattern-element-loan-rpass.rs
Outdated
Show resolved
Hide resolved
From "Borrow and Move checking":
I am not sure how you intend for the above sentence to be interpreted. In my experience, slice patterns currently will not let you rematch an array where you have moved out via a slice pattern, even with a pattern that is disjoint compared to the previously matched part. For example, consider the following playpen #![feature(slice_patterns)]
#[derive(Clone, Debug)]
struct D(&'static str);
impl Drop for D {
fn drop(&mut self) { println!("Dropping D({})", self.0); }
}
fn main() {
let a = [D("a0"),D("a1"),D("a2"),D("a3"),D("a4"),D("a5"),D("a6"),D("a7")];
println!("before matches");
match a {
[_, _, s2_5 @ .., _, _] => { println!("sub2_5 {:?}", s2_5); }
}
println!("between matches");
match a {
[_, _, _, _, _, _, s6_7 @ ..] => { println!("sub6_7 {:?}", s6_7); }
}
println!("after matches");
} Here, the 8-element array Or at least, it would if it compiled. But on the playpen, it currently issues the following error:
Can you clarify what the above text is talking about?
|
@matthewjasper tells me that this is a case of the #53114 bug. That is, it's a case of #![feature(slice_patterns)]
#![allow(warnings)]
struct X;
fn main() {
let arr = [X, X, X, X, X, X];
let [_, x @ .. , _, _] = arr;
let [_, _, _, _, y @ ..] = arr;
} See My personal view is that this is an orthogonal bug that can be fixed separately. (However it does seem like a bug that now has renewed usefulness in being fixed soon, so maybe let's P-high that?) |
🔔 This is now entering its final comment period, as per the review above. 🔔 |
📌 Commit 57b6843 has been approved by |
…=matthewjasper Stabilize `#![feature(slice_patterns)]` in 1.42.0 # Stabilization report The following is the stabilization report for `#![feature(slice_patterns)]`. This report is the collaborative effort of @matthewjasper and @Centril. Tracking issue: rust-lang#62254 [Version target](https://forge.rust-lang.org/#current-release-versions): 1.42 (2020-01-30 => beta, 2020-03-12 => stable). ## Backstory: slice patterns It is already possible to use slice patterns on stable Rust to match on arrays and slices. For example, to match on a slice, you may write: ```rust fn foo(slice: &[&str]) { match slice { [] => { dbg!() } [a] => { dbg!(a); } [a, b] => { dbg!(a, b); } _ => {} // ^ Fallback -- necessary because the length is unknown! } } ``` To match on an array, you may instead write: ```rust fn bar([a, b, c]: [u8; 3]) {} // --------- Length is known, so pattern is irrefutable. ``` However, on stable Rust, it is not yet possible to match on a subslice or subarray. ## A quick user guide: Subslice patterns The ability to match on a subslice or subarray is gated under `#![feature(slice_patterns)]` and is what is proposed for stabilization here. ### The syntax of subslice patterns Subslice / subarray patterns come in two flavors syntactically. Common to both flavors is they use the token `..`, referred as a *"rest pattern"* in a pattern context. This rest pattern functions as a variable-length pattern, matching whatever amount of elements that haven't been matched already before and after. When `..` is used syntactically as an element of a slice-pattern, either directly (1), or as part of a binding pattern (2), it becomes a subslice pattern. On stable Rust, a rest pattern `..` can also be used in a tuple or tuple-struct pattern with `let (x, ..) = (1, 2, 3);` and `let TS(x, ..) = TS(1, 2, 3);` respectively. ### (1) Matching on a subslice without binding it ```rust fn base(string: &str) -> u8 { match string.as_bytes() { [b'0', b'x', ..] => 16, [b'0', b'o', ..] => 8, [b'0', b'b', ..] => 2, _ => 10, } } fn main() { assert_eq!(base("0xFF"), 16); assert_eq!(base("0x"), 16); } ``` In the function `base`, the pattern `[b'0', b'x', ..]` will match on any byte-string slice with the *prefix* `0x`. Note that `..` may match on nothing, so `0x` is a valid match. ### (2) Binding a subslice: ```rust fn main() { #[derive(PartialEq, Debug)] struct X(u8); let xs: Vec<X> = vec![X(0), X(1), X(2)]; if let [start @ .., end] = &*xs { // --- bind on last element, assuming there is one. // ---------- bind the initial elements, if there are any. assert_eq!(start, &[X(0), X(1)] as &[X]); assert_eq!(end, &X(2)); let _: &[X] = start; let _: &X = end; } } ``` In this case, `[start @ .., end]` will match any non-empty slice, binding the last element to `end` and any elements before that to `start`. Note in particular that, as above, `start` may match on the empty slice. ### Only one `..` per slice pattern In today's stable Rust, a tuple (struct) pattern `(a, b, c)` can only have one subtuple pattern (e.g., `(a, .., c)`). That is, if there is a rest pattern, it may only occur once. Any `..` that follow, as in e.g., `(a, .., b, ..)` will cause an error, as there is no way for the compiler to know what `b` applies to. This rule also applies to slice patterns. That is, you may also not write `[a, .., b, ..]`. ## Motivation [PR rust-lang#67569]: https://github.com/rust-lang/rust/pull/67569/files Slice patterns provide a natural and efficient way to pattern match on slices and arrays. This is particularly useful as slices and arrays are quite a common occurence in modern software targeting modern hardware. However, as aforementioned, it's not yet possible to perform incomplete matches, which is seen in `fn base`, an example taken from the `rustc` codebase itself. This is where subslice patterns come in and extend slice patterns with the natural syntax `xs @ ..` and `..`, where the latter is already used for tuples and tuple structs. As an example of how subslice patterns can be used to clean up code, we have [PR rust-lang#67569]. In this PR, slice patterns enabled us to improve readability and reduce unsafety, at no loss to performance. ## Technical specification ### Grammar The following specification is a *sub-set* of the grammar necessary to explain what interests us here. Note that stabilizing subslice patterns does not alter the stable grammar. The stabilization contains purely semantic changes. ```rust Binding = reference:"ref"? mutable:"mut"? name:IDENT; Pat = | ... // elided | Rest: ".." | Binding:{ binding:Binding { "@" subpat:Pat }? } | Slice:{ "[" elems:Pat* %% "," "]" } | Paren:{ "(" pat:Pat ")" } | Tuple:{ path:Path? "(" elems:Pat* &% "," ")" } ; ``` Notes: 1. `(..)` is interpreted as a `Tuple`, not a `Paren`. This means that `[a, (..)]` is interpreted as `Slice[Binding(a), Tuple[Rest]]` and not `Slice[Binding(a), Paren(Rest)]`. ### Name resolution [resolve_pattern_inner]: https://doc.rust-lang.org/nightly/nightly-rustc/rustc_resolve/late/struct.LateResolutionVisitor.html#method.resolve_pattern_inner [product context]: https://doc.rust-lang.org/nightly/nightly-rustc/rustc_resolve/late/enum.PatBoundCtx.html#variant.Product A slice pattern is [resolved][resolve_pattern_inner] as a [product context] and `..` is given no special treatment. ### Abstract syntax of slice patterns The abstract syntax (HIR level) is defined like so: ```rust enum PatKind { ... // Other unimportant stuff. Wild, Binding { binding: Binding, subpat: Option<Pat>, }, Slice { before: List<Pat>, slice: Option<Pat>, after: List<Pat>, }, } ``` [`hir::PatKind`]: https://doc.rust-lang.org/nightly/nightly-rustc/rustc/hir/enum.PatKind.html The executable definition is found in [`hir::PatKind`]. ### Lowering to abstract syntax Lowering a slice pattern to its abstract syntax proceeds by: 1. Lowering each element pattern of the slice pattern, where: 1. `..` is lowered to `_`, recording that it was a subslice pattern, 2. `binding @ ..` is lowered to `binding @ _`, recording that it was a subslice pattern, 3. and all other patterns are lowered as normal, recording that it was not a subslice pattern. 2. Taking all lowered elements until the first subslice pattern. 3. Take all following elements. If there are any, 1. The head is the sub-`slice` pattern. 2. The tail (`after`) must not contain a subslice pattern, or an error occurs. [`LoweringContext::lower_pat_slice`]: https://doc.rust-lang.org/nightly/nightly-rustc/rustc/hir/lowering/struct.LoweringContext.html#method.lower_pat_slice The full executable definition can be found in [`LoweringContext::lower_pat_slice`]. ### Type checking slice patterns #### Default binding modes [non-reference pattern]: https://doc.rust-lang.org/nightly/reference/patterns.html#binding-modes [`is_non_ref_pat`]: https://doc.rust-lang.org/nightly/nightly-rustc/rustc_typeck/check/struct.FnCtxt.html#method.is_non_ref_pat [peel_off_references]: https://doc.rust-lang.org/nightly/nightly-rustc/rustc_typeck/check/struct.FnCtxt.html#method.peel_off_references A slice pattern is a [non-reference pattern] as defined in [`is_non_ref_pat`]. This means that when type checking a slice pattern, as many immediate reference types are [peeled off][peel_off_references] from the `expected` type as possible and the default binding mode is adjusted to by-reference before checking the slice pattern. See rust-lang#63118 for an algorithmic description. [RFC 2359]: https://github.com/rust-lang/rfcs/blob/master/text/2359-subslice-pattern-syntax.md [rfc-2359-gle]: https://github.com/rust-lang/rfcs/blob/master/text/2359-subslice-pattern-syntax.md#guide-level-explanation See [RFC 2359]'s [guide-level explanation][rfc-2359-gle] and the tests listed below for examples of what effect this has. #### Checking the pattern Type checking a slice pattern proceeds as follows: 1. Resolve any type variables by a single level. If the result still is a type variable, error. 2. Determine the expected type for any subslice pattern (`slice_ty`) and for elements (`inner_ty`) depending on the expected type. 1. If the expected type is an array (`[E; N]`): 1. Evaluate the length of the array. If the length couldn't be evaluated, error. This may occur when we have e.g., `const N: usize`. Now `N` is known. 2. If there is no sub-`slice` pattern, check `len(before) == N`, and otherwise error. 3. Otherwise, set `S = N - len(before) - len(after)`, and check `N >= 0` and otherwise error. Set `slice_ty = [E; S]`. Set `inner_ty = E`. 2. If the expected type is a slice (`[E]`), set `inner_ty = E` and `slice_ty = [E]`. 3. Otherwise, error. 3. Check each element in `before` and `after` against `inner_ty`. 4. If it exists, check `slice` against `slice_ty`. [`check_pat_slice`]: https://doc.rust-lang.org/nightly/nightly-rustc/rustc_typeck/check/struct.FnCtxt.html#method.check_pat_slice For an executable definition, see [`check_pat_slice`]. ### Typed abstract syntax of slice and array patterns The typed abstract syntax (HAIR level) is defined like so: ```rust enum PatKind { ... // Other unimportant stuff. Wild, Binding { ... // Elided. } Slice { prefix: List<Pat>, slice: Option<Pat>, suffix: List<Pat>, }, Array { prefix: List<Pat>, slice: Option<Pat>, suffix: List<Pat>, }, } ``` [`hair::pattern::PatKind`]: https://doc.rust-lang.org/nightly/nightly-rustc/rustc_mir/hair/pattern/enum.PatKind.html The executable definition is found in [`hair::pattern::PatKind`]. ### Lowering to typed abstract syntax Lowering a slice pattern to its typed abstract syntax proceeds by: 1. Lowering each pattern in `before` into `prefix`. 2. Lowering the `slice`, if it exists, into `slice`. 1. A `Wild` pattern in abstract syntax is lowered to `Wild`. 2. A `Binding` pattern in abstract syntax is lowered to `Binding { .. }`. 3. Lowering each pattern in `after` into `after`. 4. If the type is `[E; N]`, construct `PatKind::Array { prefix, slice, after }`, otherwise `PatKind::Slice { prefix, slice, after }`. [`PatCtxt::slice_or_array_pattern`]: https://doc.rust-lang.org/nightly/nightly-rustc/rustc_mir/hair/pattern/struct.PatCtxt.html#method.slice_or_array_pattern The executable definition is found in [`PatCtxt::slice_or_array_pattern`]. ### Exhaustiveness checking Let `E` be the element type of a slice or array. - For array types, `[E; N]` with a known length `N`, the full set of constructors required for an exahustive match is the sequence `ctors(E)^N` where `ctors` denotes the constructors required for an exhaustive match of `E`. - Otherwise, for slice types `[E]`, or for an array type with an unknown length `[E; ?L]`, the full set of constructors is the infinite sequence `⋃_i=0^∞ ctors(E)^i`. This entails that an exhaustive match without a cover-all pattern (e.g. `_` or `binding`) or a subslice pattern (e.g., `[..]` or `[_, _, ..]`) is impossible. - `PatKind::{Slice, Array}(prefix, None, suffix @ [])` cover a sequence of of `len(prefix)` covered by `patterns`. Note that `suffix.len() > 0` with `slice == None` is unrepresentable. - `PatKind::{Slice, Array}(prefix, Some(s), suffix)` cover a `sequence` with `prefix` as the start and `suffix` as the end and where `len(prefix) + len(suffix) <= len(sequence)`. The `..` in the middle is interpreted as an unbounded number of `_`s in terms of exhaustiveness checking. ### MIR representation The relevant MIR representation for the lowering into MIR, which is discussed in the next section, includes: ```rust enum Rvalue { // ... /// The length of a `[X]` or `[X; N]` value. Len(Place), } struct Place { base: PlaceBase, projection: List<PlaceElem>, } enum ProjectionElem { // ... ConstantIndex { offset: Nat, min_length: Nat, from_end: bool, }, Subslice { from: Nat, to: Nat, from_end: bool, }, } ``` ### Lowering to MIR * For a slice pattern matching a slice, where the pattern has `N` elements specified, there is a check that the `Rvalue::Len` of the slice is at least `N` to decide if the pattern can match. * There are two kinds of `ProjectionElem` used for slice patterns: 1. `ProjectionElem::ConstantIndex` is an array or slice element with a known index. As a shorthand it's written `base[offset of min_length]` if `from_end` is false and `base[-offset of min_length]` if `from_end` is true. `base[-offset of min_length]` is the `len(base) - offset`th element of `base`. 2. `ProjectionElem::Subslice` is a subslice of an array or slice with known bounds. As a shorthand it's written `base[from..to]` if `from_end` is false and `base[from:-to]` if `from_end` is true. `base[from:-to]` is the subslice `base[from..len(base) - to]`. * Note that `ProjectionElem::Index` is used for indexing expressions, but not for slice patterns. It's written `base[idx]`. * When binding an array pattern, any individual element binding is lowered to an assignment or borrow of `base[offset of len]` where `offset` is the element's index in the array and `len` is the array's length. * When binding a slice pattern, let `N` be the number of elements that have patterns. Elements before the subslice pattern (`prefix`) are lowered to `base[offset of N]` where `offset` is the element's index from the start. Elements after the subslice pattern (`suffix`) are lowered to `base[-offset of N]` where `offset` is the element's index from the end, plus 1. * Subslices of arrays are lowered to `base[from..to]` where `from` is the number of elements before the subslice pattern and `to = len(array) - len(suffix)` is the length of the array minus the number of elements after the subslice pattern. * Subslices of slices are lowered to `base[from:-to]` where `from` is the number of elements before the subslice pattern (`len(prefix)`) and `to` is the number of elements after the subslice pattern (`len(suffix)`). ### Safety and const checking * Subslice patterns do not introduce any new unsafe operations. * As subslice patterns for arrays are irrefutable, they are allowed in const contexts. As are `[..]` and `[ref y @ ..]` patterns for slices. However, `ref mut` bindings are only allowed with `feature(const_mut_refs)` for now. * As other subslice patterns for slices require a `match`, `if let`, or `while let`, they are only allowed with `feature(const_if_match, const_fn)` for now. * Subslice patterns may occur in promoted constants. ### Borrow and move checking * A subslice pattern can be moved from if it has an array type `[E; N]` and the parent array can be moved from. * Moving from an array subslice pattern moves from all of the elements of the array within the subslice. * If the subslice contains at least one element, this means that dynamic indexing (`arr[idx]`) is no longer allowed on the array. * The array can be reinitialized and can still be matched with another slice pattern that uses a disjoint set of elements. * A subslice pattern can be mutably borrowed if the parent array/slice can be mutably borrowed. * When determining whether an access conflicts with a borrow and at least one is a slice pattern: * `x[from..to]` always conflicts with `x` and `x[idx]` (where `idx` is a variable). * `x[from..to]` conflicts with `x[idx of len]` if `from <= idx` and `idx < to` (that is, `idx ∈ from..to`). * `x[from..to]` conflicts with `x[from2..to2]` if `from < to2` and `from2 < to` (that is, `(from..to) ∩ (from2..to2) ≠ ∅`). * `x[from:-to]` always conflicts with `x`, `x[idx]`, and `x[from2:-to2]`. * `x[from:-to]` conflicts with `x[idx of len]` if `from <= idx`. * `x[from:-to]` conflicts with `x[-idx of len]` if `to < idx`. * A constant index from the end conflicts with other elements as follows: * `x[-idx of len]` always conflicts with `x` and `x[idx]`. * `x[-idx of len]` conflicts with `x[-idx2 of len2]` if `idx == idx2`. * `x[-idx of len]` conflicts with `x[idx2 of len2]` if `idx + idx2 >= max(len, len2)`. ## Tests The tests can be primarily seen in the PR itself. Here are some of them: ### Parsing (3) * Testing that `..` patterns are syntactically allowed in all pattern contexts (2) * [pattern/rest-pat-syntactic.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/pattern/rest-pat-syntactic.rs) * [ignore-all-the-things.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/ignore-allthe-things.rs) * Slice patterns allow a trailing comma, including after `..` (1) * [trailing-comma.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/trailing-comma.rs) ### Lowering (2) * `@ ..` isn't allowed outside of slice patterns and only allowed once in each pattern (1) * [pattern/rest-pat-semantic-disallowed.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/pattern/rest-pat-semantic-disallowed.rs) * Mulitple `..` patterns are not allowed (1) * [parser/match-vec-invalid.rs](https://github.com/rust-lang/rust/blob/53712f8637dbe326df569a90814aae1cc5429710/src/test/ui/parser/match-vec-invalid.rs) ### Type checking (5) * Default binding modes apply to slice patterns (2) * [rfc-2005-default-binding-mode/slice.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/rfc-2005-default-binding-mode/slice.rs) * [rfcs/rfc-2005-default-binding-mode/slice.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/rfcs/rfc-2005-default-binding-mode/slice.rs) * Array patterns cannot have more elements in the pattern than in the array (2) * [match/match-vec-mismatch.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/match/match-vec-mismatch.rs) * [error-codes/E0528.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/error-codes/E0528.rs) * Array subslice patterns have array types (1) * [array-slice-vec/subslice-patterns-pass.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/array-slice-vec/subslice-patterns-pass.rs) ### Exhaustiveness and usefulness checking (20) * Large subslice matches don't stack-overflow the exhaustiveness checker (1) * [pattern/issue-53820-slice-pattern-large-array.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/pattern/issue-53820-slice-pattern-large-array.rs) * Array patterns with subslices are irrefutable (1) * [issues/issue-7784.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/issues/issue-7784.rs) * `[xs @ ..]` slice patterns are irrefutable (1) * [binding/irrefutable-slice-patterns.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/binding/irrefutable-slice-patterns.rs) * Subslice patterns can match zero-length slices (2) * [issues/issue-15080.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/issues/issue-15080.rs) * [issues/issue-15104.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/issues/issue-15104.rs) * General tests (13) * [issues/issue-12369.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/issues/issue-12369.rs) * [issues/issue-37598.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/issues/issue-37598.rs) * [pattern/usefulness/match-vec-unreachable.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/pattern/usefulness/match-vec-unreachable.rs) * [pattern/usefulness/non-exhaustive-match.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/pattern/usefulness/non-exhaustive-match.rs) * [pattern/usefulness/non-exhaustive-match-nested.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/pattern/usefulness/non-exhaustive-match-nested.rs) * [pattern/usefulness/non-exhaustive-pattern-witness.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/pattern/usefulness/non-exhaustive-pattern-witness.rs) * [pattern/usefulness/65413-constants-and-slices-exhaustiveness.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/pattern/usefulness/65413-constants-and-slices-exhaustiveness.rs) * [pattern/usefulness/match-byte-array-patterns.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/pattern/usefulness/match-byte-array-patterns.rs) * [pattern/usefulness/match-slice-patterns.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/pattern/usefulness/match-slice-patterns.rs) * [pattern/usefulness/slice-patterns-exhaustiveness.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/pattern/usefulness/slice-patterns-exhaustiveness.rs) * [pattern/usefulness/slice-patterns-irrefutable.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/pattern/usefulness/slice-patterns-irrefutable.rs) * [pattern/usefulness/slice-patterns-reachability.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/pattern/usefulness/slice-patterns-reachability.rs) * [uninhabited/uninhabited-patterns.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/uninhabited/uninhabited-patterns.rs) * Interactions with or-patterns (2) * [or-patterns/exhaustiveness-pass.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/or-patterns/exhaustiveness-pass.rs) * [or-patterns/exhaustiveness-unreachable-pattern.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/or-patterns/exhaustiveness-unreachable-pattern.rs) ### Borrow checking (28) * Slice patterns can only move from owned, fixed-length arrays (4) * [borrowck/borrowck-move-out-of-vec-tail.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/borrowck/borrowck-move-out-of-vec-tail.rs) * [moves/move-out-of-slice-2.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/moves/move-out-of-slice-2.rs) * [moves/move-out-of-array-ref.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/moves/move-out-of-array-ref.rs) * [issues/issue-12567.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/issues/issue-12567.rs) * Moves from arrays are tracked by element (2) * [borrowck/borrowck-move-out-from-array-no-overlap.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/borrowck/borrowck-move-out-from-array-no-overlap.rs) * [borrowck/borrowck-move-out-from-array-use-no-overlap.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/borrowck/borrowck-move-out-from-array-use-no-overlap.rs) * Slice patterns cannot be used on moved-from slices/arrays (2) * [borrowck/borrowck-move-out-from-array.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/borrowck/borrowck-move-out-from-array.rs) * [borrowck/borrowck-move-out-from-array-use.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/borrowck/borrowck-move-out-from-array-use.rs) * Slice patterns cannot be used with conflicting borrows (3) * [borrowck/borrowck-describe-lvalue.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/borrowck/borrowck-describe-lvalue.rs) * [borrowck/borrowck-slice-pattern-element-loan-array.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/borrowck/borrowck-slice-pattern-element-loan-array.rs) * [borrowck/borrowck-slice-pattern-element-loan-slice.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/borrowck/borrowck-slice-pattern-element-loan-slice.rs) * Borrows from slice patterns are tracked and only conflict when there is possible overlap (6) * [borrowck/borrowck-slice-pattern-element-loan-array-no-overlap.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/borrowck/borrowck-slice-pattern-element-loan-array-no-overlap.rs) * [borrowck/borrowck-slice-pattern-element-loan-slice-no-overlap.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/borrowck/borrowck-slice-pattern-element-loan-slice-no-overlap.rs) * [borrowck/borrowck-slice-pattern-element-loan-rpass.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/borrowck/borrowck-slice-pattern-element-loan-rpass.rs) * [borrowck/borrowck-vec-pattern-element-loan.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/borrowck/borrowck-vec-pattern-element-loan.rs) * [borrowck/borrowck-vec-pattern-loan-from-mut.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/borrowck/borrowck-vec-pattern-loan-from-mut.rs) * [borrowck/borrowck-vec-pattern-tail-element-loan.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/borrowck/borrowck-vec-pattern-tail-element-loan.rs) * Slice patterns affect indexing expressions (1) * [borrowck/borrowck-vec-pattern-move-tail.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/borrowck/borrowck-vec-pattern-move-tail.rs) * Borrow and move interactions with `box` patterns (1) * [borrowck/borrowck-vec-pattern-move-tail.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/borrowck/borrowck-vec-pattern-move-tail.rs) * Slice patterns correctly affect inference of closure captures (2) * [borrowck/borrowck-closures-slice-patterns.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/borrowck/borrowck-closures-slice-patterns.rs) * [borrowck/borrowck-closures-slice-patterns-ok.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/borrowck/borrowck-closures-slice-patterns-ok.rs) * Interactions with `#![feature(bindings_after_at)]` (7) * [pattern/bindings-after-at/borrowck-move-and-move.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/pattern/bindings-after-at/borrowck-move-and-move.rs) * [pattern/bindings-after-at/borrowck-pat-at-and-box-pass.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/pattern/bindings-after-at/borrowck-pat-at-and-box-pass.rs) * [pattern/bindings-after-at/borrowck-pat-at-and-box.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/pattern/bindings-after-at/borrowck-pat-at-and-box.rs) * [pattern/bindings-after-at/borrowck-pat-by-copy-bindings-in-at.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/pattern/bindings-after-at/borrowck-pat-by-copy-bindings-in-at.rs) * [pattern/bindings-after-at/borrowck-pat-ref-both-sides.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/pattern/bindings-after-at/borrowck-pat-ref-both-sides.rs) * [pattern/bindings-after-at/borrowck-pat-ref-mut-and-ref.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/pattern/bindings-after-at/borrowck-pat-ref-mut-and-ref.rs) * [pattern/bindings-after-at/borrowck-pat-ref-mut-twice.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/pattern/bindings-after-at/borrowck-pat-ref-mut-twice.rs) * Misc (1) * [issues/issue-26619.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/issues/issue-26619.rs) ### MIR lowering (1) * [uniform_array_move_out.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/mir-opt/uniform_array_move_out.rs) ### Evaluation (19) * Slice patterns don't cause leaks or double drops (2) * [drop/dynamic-drop.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/drop/dynamic-drop.rs) * [drop/dynamic-drop-async.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/drop/dynamic-drop-async.rs) * General run-pass tests (10) * [array-slice-vec/subslice-patterns-pass.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/array-slice-vec/subslice-patterns-pass.rs) * [array-slice-vec/vec-matching-fixed.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/array-slice-vec/vec-matching-fixed.rs) * [array-slice-vec/vec-matching-fold.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/array-slice-vec/vec-matching-fold.rs) * [array-slice-vec/vec-matching-legal-tail-element-borrow.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/array-slice-vec/vec-matching-legal-tail-element-borrow.rs) * [array-slice-vec/vec-matching.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/array-slice-vec/vec-matching.rs) * [array-slice-vec/vec-tail-matching.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/array-slice-vec/vec-tail-matching.rs) * [binding/irrefutable-slice-patterns.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/binding/irrefutable-slice-patterns.rs) * [binding/match-byte-array-patterns.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/binding/match-byte-array-patterns.rs) * [binding/match-vec-alternatives.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/binding/match-vec-alternatives.rs) * [borrowck/borrowck-slice-pattern-element-loan-rpass.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/borrowck/borrowck-slice-pattern-element-loan-rpass.rs) * Matching a large by-value array (1) * [issues/issue-17877.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/issues/issue-17877.rs) * Uninhabited elements (1) * [binding/empty-types-in-patterns.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/binding/empty-types-in-patterns.rs) * Zero-sized elements (3) * [binding/zero_sized_subslice_match.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/binding/zero_sized_subslice_match.rs) * [array-slice-vec/subslice-patterns-const-eval.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/array-slice-vec/subslice-patterns-const-eval.rs) * [array-slice-vec/subslice-patterns-const-eval-match.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/array-slice-vec/subslice-patterns-const-eval-match.rs) * Evaluation in const contexts (2) * [array-slice-vec/subslice-patterns-const-eval.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/array-slice-vec/subslice-patterns-const-eval.rs) * [array-slice-vec/subslice-patterns-const-eval-match.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/array-slice-vec/subslice-patterns-const-eval-match.rs) ## Misc (1) * Exercising a case where const-prop cased an ICE (1) * [consts/const_prop_slice_pat_ice.rs](https://github.com/rust-lang/rust/blob/acb6690e1d58fc5f262ada5b5030fe73e601f1e8/src/test/ui/consts/const_prop_slice_pat_ice.rs) ## History - 2012-12-08, commit rust-lang@1968cb3 Author: Jakub Wieczorek Reviewers: @graydon This is where slice patterns were first implemented. It is particularly instructive to read the `vec-tail-matching.rs` test. - 2013-08-20, issue rust-lang#8636 Author: @huonw Fixed by @mikhail-m1 in rust-lang#51894 The issue describes a problem wherein the borrow-checker would not consider disjointness when checking mutable references in slice patterns. - 2014-09-03, RFC rust-lang/rfcs#164 Author: @brson Reviewers: The Core Team The RFC decided to feature gate slice patterns due to concerns over lack of oversight and the exhaustiveness checking logic not having seen much love. Since then, the exhaustivenss checking algorithm, in particular for slice patterns, has been substantially refactored and tests have been added. - 2014-09-03, RFC rust-lang/rfcs#202 Author: @krdln Reviewers: The Core Team > Change syntax of subslices matching from `..xs` to `xs..` to be more consistent with the rest of the language and allow future backwards compatible improvements. In 2019, rust-lang/rfcs#2359 changed the syntax again in favor of `..` and `xs @ ..`. - 2014-09-08, PR rust-lang#17052 Author: @pcwalton Reviewers: @alexcrichton and @sfackler This implemented the feature gating as specified in rust-lang/rfcs#164. - 2015-03-06, RFC rust-lang/rfcs#495 Author: @P1start Reviewers: The Core Team The RFC changed array and slice patterns like so: - Made them only match on arrays (`[T; N]`) and slice types (`[T]`), not references to slice types (`& mut? [T]`). - Made subslice matching yield a value of type `[T; N]` or `[T]`, not `& mut? [T]`. - Allowed multiple mutable references to be made to different parts of the same array or slice in array patterns. These changes were made to fit with the introduction of DSTs like `[T]` as well as with e.g. `box [a, b, c]` (`Box<[T]>`) in the future. All points remain true today, in particular with the advent of default binding modes. - 2015-03-22, PR rust-lang#23361 Author: @petrochenkov Reviewers: Unknown The PR adjusted codegen ("trans") such that `let ref a = *"abcdef"` would no longer ICE, paving the way for rust-lang/rfcs#495. - 2015-05-28, PR rust-lang#23794 Author: @brson Reviewers: @nrc The PR feature gated slice patterns in more contexts. - 2016-06-09, PR rust-lang#32202 Author: @arielb1 Reviewers: @eddyb and @nikomatsakis This implemented RFC rust-lang/rfcs#495 via a MIR based implementation fixing some bugs. - 2016-09-16, PR rust-lang#36353 Author: @arielb1 Reviewers: @nagisa, @pnkfelix, and @nikomatsakis The PR made move-checker improvements prohibiting moves out of slices. - 2018-02-17, PR rust-lang#47926 Author: @mikhail-m1 Reviewers: @nikomatsakis This added the `UniformArrayMoveOut` which converted move-out-from-array by `Subslice` and `ConstIndex {.., from_end: true }` to `ConstIndex` move out(s) from the beginning of the array. This fixed some problems with the MIR borrow-checker and drop-elaboration of arrays. Unfortunately, the transformation ultimately proved insufficient for soundness and was removed and replaced in rust-lang#66650. - 2018-02-19, PR rust-lang#48355 Author: @mikhail-m1 Reviewers: @nikomatsakis After rust-lang#47926, this restored some MIR optimizations after drop-elaboration and borrow-checking. - 2018-03-20, PR rust-lang#48516 Author: @petrochenkov Reviewers: @nikomatsakis This stabilized fixed length slice patterns `[a, b, c]` without variable length subslices and moved subslice patterns into `#![feature(slice_patterns)`. See rust-lang#48836 wherein the language team accepted the proposal to stabilize. - 2018-07-06, PR rust-lang#51894 Author: @mikhail-m1 Reviewers: @nikomatsakis rust-lang#8636 was fixed such that the borrow-checker would consider disjointness with respect to mutable references in slice patterns. - 2019-06-30, RFC rust-lang/rfcs#2359 Author: @petrochenkov Reviewers: The Language Team The RFC switched the syntax of subslice patterns to `{$binding @}? ..` as opposed to `.. $pat?` (which was what the RFC originally proposed). This RFC reignited the work towards finishing the implementation and the testing of slice patterns which eventually lead to this stabilization proposal. - 2019-06-30, RFC rust-lang/rfcs#2707 Author: @petrochenkov Reviewers: The Language Team This RFC built upon rust-lang/rfcs#2359 turning `..` into a full-fledged pattern (`Pat |= Rest:".." ;`), as opposed to a special part of slice and tuple patterns, moving previously syntactic restrictions into semantic ones. - 2019-07-03, PR rust-lang#62255 Author: @Centril Reviewers: @varkor This closed the old tracking issue (rust-lang#23121) in favor of the new one (rust-lang#62254) due to the new RFCs having been accepted. - 2019-07-28, PR rust-lang#62550 Author: @Centril Reviewers: @petrochenkov and @eddyb Implemented RFCs rust-lang/rfcs#2707 and rust-lang/rfcs#2359 by introducing the `..` syntactic rest pattern form as well as changing the lowering to subslice and subtuple patterns and the necessary semantic restrictions as per the RFCs. Moreover, the parser was cleaned up to use a more generic framework for parsing sequences of things. This framework was employed in parsing slice patterns. Finally, the PR introduced parser recovery for half-open ranges (e.g., `..X`, `..=X`, and `X..`), demonstrating in practice that the RFCs proposed syntax will enable half-open ranges if we want to add those (which is done in rust-lang#67258). - 2019-07-30, PR rust-lang#63111 Author: @Centril Reviewers: @estebank Added a test which comprehensively exercised the parsing of `..` rest patterns. That is, the PR exercised the specification in rust-lang/rfcs#2707. Moreover, a test was added for the semantic restrictions noted in the RFC. - 2019-07-31, PR rust-lang#63129 Author: @Centril Reviewers: @oli-obk Hardened the test-suite for subslice and subarray patterns with a run-pass tests. This test exercises both type checking and dynamic semantics. - 2019-09-15, PR rust-lang/rust-analyzer#1848 Author: @ecstatic-morse Reviewers: @matklad This implemented the syntactic change (rest patterns, `..`) in rust-analyzer. - 2019-11-05, PR rust-lang#65874 Author: @Nadrieril Reviewers: @varkor, @arielb1, and @Centril Usefulness / exhaustiveness checking saw a major refactoring clarifying the analysis by emphasizing that each row of the matrix can be seen as a sort of stack from which we pop constructors. - 2019-11-12, PR rust-lang#66129 Author: @Nadrieril Reviewers: @varkor, @Centril, and @estebank Usefulness / exhaustiveness checking of slice patterns were refactored in favor of clearer code. Before the PR, variable-length slice patterns were eagerly expanded into a union of fixed-length slices. They now have their own special constructor, which allows expanding them more lazily. As a side-effect, this improved diagnostics. Moreover, the test suite for exhaustiveness checking of slice patterns was hardened. - 2019-11-20, PR rust-lang#66497 Author: @Nadrieril Reviewers: @varkor and @Centril Building on the previous PR, this one fixed a bug rust-lang#53820 wherein sufficiently large subarray patterns (`match [0u8; 16*1024] { [..] => {}}`) would result in crashing the compiler with a stack-overflow. The PR did this by treating array patterns in a more first-class way (using a variable-length mechanism also used for slices) rather than like large tuples. This also had the effect of improving diagnostics for non-exhaustive matches. - 2019-11-28, PR rust-lang#66603 Author: @Nadrieril Reviewers: @varkor Fixed a bug rust-lang#65413 wherein constants, slice patterns, and exhaustiveness checking interacted in a suboptimal way conspiring to suggest that a reachable arm was in fact unreachable. - 2019-12-12, PR rust-lang#66650 Author: @matthewjasper Reviewers: @pnkfelix and @Centril Removed the `UniformArrayMoveOut` MIR transformation pass in favor of baking the necessary logic into the borrow-checker, drop elaboration and MIR building itself. This fixed a number of bugs, including a soundness hole rust-lang#66502. Moreover, the PR added a slew of tests for borrow- and move-checking of slice patterns as well as a test for the dynamic semantics of dropping subslice patterns. - 2019-12-16, PR rust-lang#67318 Author: @Centril Reviewers: @matthewjasper Improved documentation for AST->HIR lowering + type checking of slice as well as minor code simplification. - 2019-12-21, PR rust-lang#67467 Author: @matthewjasper Reviewers: @oli-obk, @RalfJung, and @Centril Fixed bugs in the const evaluation of slice patterns and added tests for const evaluation as well as borrow- and move-checking. - 2019-12-22, PR rust-lang#67439 Author: @Centril Reviewers: @matthewjasper Cleaned up HAIR lowering of slice patterns, removing special cased dead code for the unrepresentable `[a, b] @ ..`. The PR also refactored type checking for slice patterns. - 2019-12-23, PR rust-lang#67546 Author: @oli-obk Reviewers: @varkor and @RalfJung Fixed an ICE in the MIR interpretation of slice patterns. - 2019-12-24, PR rust-lang#66296 Author: @Centril Reviewers: @pnkfelix and @matthewjasper This implemented `#![feature(bindings_after_at)]` which allows writing e.g. `a @ Some([_, b @ ..])`. This is not directly linked to slice patterns other than with patterns in general. However, the combination of the feature and `slice_patterns` received some testing in the PR. - 2020-01-09, PR rust-lang#67990 Author: @Centril Reviewers: @matthewjasper This hardened move-checker tests for `match` expressions in relation to rust-lang#53114. - This PR stabilizes `slice_patterns`. ## Related / possible future work There is on-going work to improve pattern matching in other ways (the relevance of some of these are indirect, and only by composition): - OR-patterns, `pat_0 | .. | pat_n` is almost implemented. Tracking issue: rust-lang#54883 - Bindings after `@`, e.g., `x @ Some(y)` is implemented. Tracking issue: rust-lang#65490 - Half-open range patterns, e.g., `X..`, `..X`, and `..=X` as well as exclusive range patterns, e.g., `X..Y`. Tracking issue: rust-lang#67264 and rust-lang#37854 The relevance here is that this work demonstrates, in practice, that there are no syntactic conflicts introduced by the stabilization of subslice patterns. As for more direct improvements to slice patterns, some avenues could be: - Box patterns, e.g., `box [a, b, .., c]` to match on `Box<[T]>`. Tracking issue: rust-lang#29641 This issue currently has no path to stabilization. Note that it is currently possible to match on `Box<[T]>` or `Vec<T>` by first dereferencing them to slices. - `DerefPure`, which would allow e.g., using slice patterns to match on `Vec<T>` (e.g., moving out of it). Another idea which was raised by [RFC 2707](https://github.com/rust-lang/rfcs/blob/master/text/2707-dotdot-patterns.md#future-possibilities) and [RFC 2359](https://github.com/rust-lang/rfcs/blob/master/text/2359-subslice-pattern-syntax.md#pat-vs-pat) was to allow binding a subtuple pattern. That is, we could allow `(a, xs @ .., b)`. However, while we could allow by-value bindings to `..` as in `xs @ ..` at zero cost, the same cannot be said of by-reference bindings, e.g. `(a, ref xs @ .., b)`. The issue here becomes that for a reference to be legal, we have to represent `xs` contiguously in memory. In effect, we are forced into a [`HList`](https://docs.rs/frunk/0.3.1/frunk/hlist/struct.HCons.html) based representation for tuples.
slice_patterns have been stabilized.
slice_patterns have been stabilized.
rustup rust-lang/rust#67712 slice_patterns have been stabilized. changelog: none
Changes: ```` Treat more strange pattern Split up `if_same_then_else` ui test Apply review comments Run `update_lints` Reduce span range Rename `ok_if_let` to `if_let_some_result` Apply review comments Add suggestion in `if_let_some_result` rustup rust-lang#67712 Allow `unused_self` lint at the function level Downgrade range_plus_one to pedantic Rustup to rust-lang#68204 Add lifetimes to `LateLintPass` Fix rustc lint import paths generated by `new_lint` Add lint for default lint description Update documentation for adding new lints Generate new lints easily Split up `booleans` ui test Fix the ordering on `nonminimal_bool` ````
The stabilization also is extensively covered in Thomas Hartmann's blog post: https://thomashartmann.dev/blog/feature(slice_patterns)/. |
Version 1.42.0 (2020-03-12) ========================== Language -------- - [You can now use the slice pattern syntax with subslices.][67712] e.g. ```rust fn foo(words: &[&str]) { match words { ["Hello", "World", "!", ..] => println!("Hello World!"), ["Foo", "Bar", ..] => println!("Baz"), rest => println!("{:?}", rest), } } ``` - [You can now use `#[repr(transparent)]` on univariant `enum`s.][68122] Meaning that you can create an enum that has the exact layout and ABI of the type it contains. - [There are some *syntax-only* changes:][67131] - `default` is syntactically allowed before items in `trait` definitions. - Items in `impl`s (i.e. `const`s, `type`s, and `fn`s) may syntactically leave out their bodies in favor of `;`. - Bounds on associated types in `impl`s are now syntactically allowed (e.g. `type Foo: Ord;`). - `...` (the C-variadic type) may occur syntactically directly as the type of any function parameter. These are still rejected *semantically*, so you will likely receive an error but these changes can be seen and parsed by procedural macros and conditional compilation. Compiler -------- - [Added tier 2* support for `armv7a-none-eabi`.][68253] - [Added tier 2 support for `riscv64gc-unknown-linux-gnu`.][68339] - [`Option::{expect,unwrap}` and `Result::{expect, expect_err, unwrap, unwrap_err}` now produce panic messages pointing to the location where they were called, rather than `core`'s internals. ][67887] * Refer to Rust's [platform support page][forge-platform-support] for more information on Rust's tiered platform support. Libraries --------- - [`iter::Empty<T>` now implements `Send` and `Sync` for any `T`.][68348] - [`Pin::{map_unchecked, map_unchecked_mut}` no longer require the return type to implement `Sized`.][67935] - [`io::Cursor` now derives `PartialEq` and `Eq`.][67233] - [`Layout::new` is now `const`.][66254] - [Added Standard Library support for `riscv64gc-unknown-linux-gnu`.][66899] Stabilized APIs --------------- - [`CondVar::wait_while`] - [`CondVar::wait_timeout_while`] - [`DebugMap::key`] - [`DebugMap::value`] - [`ManuallyDrop::take`] - [`matches!`] - [`ptr::slice_from_raw_parts_mut`] - [`ptr::slice_from_raw_parts`] Cargo ----- - [You no longer need to include `extern crate proc_macro;` to be able to `use proc_macro;` in the `2018` edition.][cargo/7700] Compatibility Notes ------------------- - [`Error::description` has been deprecated, and its use will now produce a warning.][66919] It's recommended to use `Display`/`to_string` instead. - [`use $crate;` inside macros is now a hard error.][37390] The compiler emitted forward compatibility warnings since Rust 1.14.0. - [As previously announced, this release reduces the level of support for 32-bit Apple targets to tier 3.][apple-32bit-drop]. This means that the source code is still available to build, but the targets are no longer tested and no release binary is distributed by the Rust project. Please refer to the linked blog post for more information. [37390]: rust-lang/rust#37390 [68253]: rust-lang/rust#68253 [68348]: rust-lang/rust#68348 [67935]: rust-lang/rust#67935 [68339]: rust-lang/rust#68339 [68122]: rust-lang/rust#68122 [67712]: rust-lang/rust#67712 [67887]: rust-lang/rust#67887 [67131]: rust-lang/rust#67131 [67233]: rust-lang/rust#67233 [66899]: rust-lang/rust#66899 [66919]: rust-lang/rust#66919 [66254]: rust-lang/rust#66254 [cargo/7700]: rust-lang/cargo#7700 [`DebugMap::key`]: https://doc.rust-lang.org/stable/std/fmt/struct.DebugMap.html#method.key [`DebugMap::value`]: https://doc.rust-lang.org/stable/std/fmt/struct.DebugMap.html#method.value [`ManuallyDrop::take`]: https://doc.rust-lang.org/stable/std/mem/struct.ManuallyDrop.html#method.take [`matches!`]: https://doc.rust-lang.org/stable/std/macro.matches.html [`ptr::slice_from_raw_parts_mut`]: https://doc.rust-lang.org/stable/std/ptr/fn.slice_from_raw_parts_mut.html [`ptr::slice_from_raw_parts`]: https://doc.rust-lang.org/stable/std/ptr/fn.slice_from_raw_parts.html [`CondVar::wait_while`]: https://doc.rust-lang.org/stable/std/sync/struct.Condvar.html#method.wait_while [`CondVar::wait_timeout_while`]: https://doc.rust-lang.org/stable/std/sync/struct.Condvar.html#method.wait_timeout_while
Changes: ```` Treat more strange pattern Split up `if_same_then_else` ui test Apply review comments Run `update_lints` Reduce span range Rename `ok_if_let` to `if_let_some_result` Apply review comments Add suggestion in `if_let_some_result` rustup rust-lang/rust#67712 Allow `unused_self` lint at the function level Downgrade range_plus_one to pedantic Rustup to rust-lang/rust#68204 Add lifetimes to `LateLintPass` Fix rustc lint import paths generated by `new_lint` Add lint for default lint description Update documentation for adding new lints Generate new lints easily Split up `booleans` ui test Fix the ordering on `nonminimal_bool` ````
How will this work with string slices? |
This feature is for array slices. If you want to talk about string slices, I think the internals forum would be the right place. This issue has been closed for over a year, please consider opening a new issue once a github issue becomes the right place. |
Stabilization report
The following is the stabilization report for
#![feature(slice_patterns)]
.This report is the collaborative effort of @matthewjasper and @Centril.
Tracking issue: #62254
Version target: 1.42 (2020-01-30 => beta, 2020-03-12 => stable).
Backstory: slice patterns
It is already possible to use slice patterns on stable Rust to match on arrays and slices. For example, to match on a slice, you may write:
To match on an array, you may instead write:
However, on stable Rust, it is not yet possible to match on a subslice or subarray.
A quick user guide: Subslice patterns
The ability to match on a subslice or subarray is gated under
#![feature(slice_patterns)]
and is what is proposed for stabilization here.The syntax of subslice patterns
Subslice / subarray patterns come in two flavors syntactically.
Common to both flavors is they use the token
..
, referred as a "rest pattern" in a pattern context. This rest pattern functions as a variable-length pattern, matching whatever amount of elements that haven't been matched already before and after.When
..
is used syntactically as an element of a slice-pattern, either directly (1), or as part of a binding pattern (2), it becomes a subslice pattern.On stable Rust, a rest pattern
..
can also be used in a tuple or tuple-struct pattern withlet (x, ..) = (1, 2, 3);
andlet TS(x, ..) = TS(1, 2, 3);
respectively.(1) Matching on a subslice without binding it
In the function
base
, the pattern[b'0', b'x', ..]
will match on any byte-string slice with the prefix0x
. Note that..
may match on nothing, so0x
is a valid match.(2) Binding a subslice:
In this case,
[start @ .., end]
will match any non-empty slice, binding the last element toend
and any elements before that tostart
. Note in particular that, as above,start
may match on the empty slice.Only one
..
per slice patternIn today's stable Rust, a tuple (struct) pattern
(a, b, c)
can only have one subtuple pattern (e.g.,(a, .., c)
). That is, if there is a rest pattern, it may only occur once. Any..
that follow, as in e.g.,(a, .., b, ..)
will cause an error, as there is no way for the compiler to know whatb
applies to. This rule also applies to slice patterns. That is, you may also not write[a, .., b, ..]
.Motivation
Slice patterns provide a natural and efficient way to pattern match on slices and arrays. This is particularly useful as slices and arrays are quite a common occurence in modern software targeting modern hardware. However, as aforementioned, it's not yet possible to perform incomplete matches, which is seen in
fn base
, an example taken from therustc
codebase itself. This is where subslice patterns come in and extend slice patterns with the natural syntaxxs @ ..
and..
, where the latter is already used for tuples and tuple structs. As an example of how subslice patterns can be used to clean up code, we have PR #67569. In this PR, slice patterns enabled us to improve readability and reduce unsafety, at no loss to performance.Technical specification
Grammar
The following specification is a sub-set of the grammar necessary to explain what interests us here. Note that stabilizing subslice patterns does not alter the stable grammar. The stabilization contains purely semantic changes.
Notes:
(..)
is interpreted as aTuple
, not aParen
.This means that
[a, (..)]
is interpreted asSlice[Binding(a), Tuple[Rest]]
and notSlice[Binding(a), Paren(Rest)]
.Name resolution
A slice pattern is resolved as a product context and
..
is given no special treatment.Abstract syntax of slice patterns
The abstract syntax (HIR level) is defined like so:
The executable definition is found in
hir::PatKind
.Lowering to abstract syntax
Lowering a slice pattern to its abstract syntax proceeds by:
Lowering each element pattern of the slice pattern, where:
..
is lowered to_
,recording that it was a subslice pattern,
binding @ ..
is lowered tobinding @ _
,recording that it was a subslice pattern,
and all other patterns are lowered as normal,
recording that it was not a subslice pattern.
Taking all lowered elements until the first subslice pattern.
Take all following elements.
If there are any,
slice
pattern.after
) must not contain a subslice pattern,or an error occurs.
The full executable definition can be found in
LoweringContext::lower_pat_slice
.Type checking slice patterns
Default binding modes
A slice pattern is a non-reference pattern as defined in
is_non_ref_pat
. This means that when type checking a slice pattern, as many immediate reference types are peeled off from theexpected
type as possible and the default binding mode is adjusted to by-reference before checking the slice pattern. See #63118 for an algorithmic description.See RFC 2359's guide-level explanation and the tests listed below for examples of what effect this has.
Checking the pattern
Type checking a slice pattern proceeds as follows:
Resolve any type variables by a single level.
If the result still is a type variable, error.
Determine the expected type for any subslice pattern (
slice_ty
) and for elements (inner_ty
) depending on the expected type.If the expected type is an array (
[E; N]
):Evaluate the length of the array.
If the length couldn't be evaluated, error.
This may occur when we have e.g.,
const N: usize
.Now
N
is known.If there is no sub-
slice
pattern,check
len(before) == N
,and otherwise error.
Otherwise,
set
S = N - len(before) - len(after)
,and check
N >= 0
and otherwise error.Set
slice_ty = [E; S]
.Set
inner_ty = E
.If the expected type is a slice (
[E]
),set
inner_ty = E
andslice_ty = [E]
.Otherwise, error.
Check each element in
before
andafter
againstinner_ty
.If it exists, check
slice
againstslice_ty
.For an executable definition, see
check_pat_slice
.Typed abstract syntax of slice and array patterns
The typed abstract syntax (HAIR level) is defined like so:
The executable definition is found in
hair::pattern::PatKind
.Lowering to typed abstract syntax
Lowering a slice pattern to its typed abstract syntax proceeds by:
before
intoprefix
.slice
, if it exists, intoslice
.Wild
pattern in abstract syntax is lowered toWild
.Binding
pattern in abstract syntax is lowered toBinding { .. }
.after
intoafter
.[E; N]
, constructPatKind::Array { prefix, slice, after }
, otherwisePatKind::Slice { prefix, slice, after }
.The executable definition is found in
PatCtxt::slice_or_array_pattern
.Exhaustiveness checking
Let
E
be the element type of a slice or array.For array types,
[E; N]
with a known lengthN
, the full set of constructors required for an exahustive match is the sequencectors(E)^N
wherectors
denotes the constructors required for an exhaustive match ofE
.Otherwise, for slice types
[E]
, or for an array type with an unknown length[E; ?L]
, the full set of constructors is the infinite sequence⋃_i=0^∞ ctors(E)^i
. This entails that an exhaustive match without a cover-all pattern (e.g._
orbinding
) or a subslice pattern (e.g.,[..]
or[_, _, ..]
) is impossible.PatKind::{Slice, Array}(prefix, None, suffix @ [])
cover a sequence of oflen(prefix)
covered bypatterns
. Note thatsuffix.len() > 0
withslice == None
is unrepresentable.PatKind::{Slice, Array}(prefix, Some(s), suffix)
cover asequence
withprefix
as the start andsuffix
as the end and wherelen(prefix) + len(suffix) <= len(sequence)
. The..
in the middle is interpreted as an unbounded number of_
s in terms of exhaustiveness checking.MIR representation
The relevant MIR representation for the lowering into MIR, which is discussed in the next section, includes:
Lowering to MIR
For a slice pattern matching a slice, where the pattern has
N
elements specified, there is a check that theRvalue::Len
of the slice is at leastN
to decide if the pattern can match.There are two kinds of
ProjectionElem
used for slice patterns:ProjectionElem::ConstantIndex
is an array or slice element with a known index. As a shorthand it's writtenbase[offset of min_length]
iffrom_end
is false andbase[-offset of min_length]
iffrom_end
is true.base[-offset of min_length]
is thelen(base) - offset
th element ofbase
.ProjectionElem::Subslice
is a subslice of an array or slice with known bounds. As a shorthand it's writtenbase[from..to]
iffrom_end
is false andbase[from:-to]
iffrom_end
is true.base[from:-to]
is the subslicebase[from..len(base) - to]
.ProjectionElem::Index
is used for indexing expressions, but not for slice patterns. It's writtenbase[idx]
.When binding an array pattern, any individual element binding is lowered to an assignment or borrow of
base[offset of len]
whereoffset
is the element's index in the array andlen
is the array's length.When binding a slice pattern, let
N
be the number of elements that have patterns. Elements before the subslice pattern (prefix
) are lowered tobase[offset of N]
whereoffset
is the element's index from the start. Elements after the subslice pattern (suffix
) are lowered tobase[-offset of N]
whereoffset
is the element's index from the end, plus 1.Subslices of arrays are lowered to
base[from..to]
wherefrom
is the number of elements before the subslice pattern andto = len(array) - len(suffix)
is the length of the array minus the number of elements after the subslice pattern.Subslices of slices are lowered to
base[from:-to]
wherefrom
is the number of elements before the subslice pattern (len(prefix)
) andto
is the number of elements after the subslice pattern (len(suffix)
).Safety and const checking
Subslice patterns do not introduce any new unsafe operations.
As subslice patterns for arrays are irrefutable, they are allowed in const contexts. As are
[..]
and[ref y @ ..]
patterns for slices. However,ref mut
bindings are only allowed withfeature(const_mut_refs)
for now.As other subslice patterns for slices require a
match
,if let
, orwhile let
, they are only allowed withfeature(const_if_match, const_fn)
for now.Subslice patterns may occur in promoted constants.
Borrow and move checking
A subslice pattern can be moved from if it has an array type
[E; N]
and the parent array can be moved from.Moving from an array subslice pattern moves from all of the elements of the array within the subslice.
If the subslice contains at least one element, this means that dynamic indexing (
arr[idx]
) is no longer allowed on the array.The array can be reinitialized and can still be matched with another slice pattern that uses a disjoint set of elements.
A subslice pattern can be mutably borrowed if the parent array/slice can be mutably borrowed.
When determining whether an access conflicts with a borrow and at least one is a slice pattern:
x[from..to]
always conflicts withx
andx[idx]
(whereidx
is a variable).x[from..to]
conflicts withx[idx of len]
iffrom <= idx
andidx < to
(that is,idx ∈ from..to
).x[from..to]
conflicts withx[from2..to2]
iffrom < to2
andfrom2 < to
(that is,(from..to) ∩ (from2..to2) ≠ ∅
).x[from:-to]
always conflicts withx
,x[idx]
, andx[from2:-to2]
.x[from:-to]
conflicts withx[idx of len]
iffrom <= idx
.x[from:-to]
conflicts withx[-idx of len]
ifto < idx
.A constant index from the end conflicts with other elements as follows:
x[-idx of len]
always conflicts withx
andx[idx]
.x[-idx of len]
conflicts withx[-idx2 of len2]
ifidx == idx2
.x[-idx of len]
conflicts withx[idx2 of len2]
ifidx + idx2 >= max(len, len2)
.Tests
The tests can be primarily seen in the PR itself. Here are some of them:
Parsing (3)
Testing that
..
patterns are syntactically allowed in all pattern contexts (2)Slice patterns allow a trailing comma, including after
..
(1)Lowering (2)
@ ..
isn't allowed outside of slice patterns and only allowed once in each pattern (1)Mulitple
..
patterns are not allowed (1)Type checking (5)
Default binding modes apply to slice patterns (2)
Array patterns cannot have more elements in the pattern than in the array (2)
Array subslice patterns have array types (1)
Exhaustiveness and usefulness checking (20)
Large subslice matches don't stack-overflow the exhaustiveness checker (1)
Array patterns with subslices are irrefutable (1)
[xs @ ..]
slice patterns are irrefutable (1)Subslice patterns can match zero-length slices (2)
General tests (13)
Interactions with or-patterns (2)
Borrow checking (28)
Slice patterns can only move from owned, fixed-length arrays (4)
Moves from arrays are tracked by element (2)
Slice patterns cannot be used on moved-from slices/arrays (2)
Slice patterns cannot be used with conflicting borrows (3)
Borrows from slice patterns are tracked and only conflict when there is possible overlap (6)
Slice patterns affect indexing expressions (1)
Borrow and move interactions with
box
patterns (1)Slice patterns correctly affect inference of closure captures (2)
Interactions with
#![feature(bindings_after_at)]
(7)Misc (1)
MIR lowering (1)
Evaluation (19)
Slice patterns don't cause leaks or double drops (2)
General run-pass tests (10)
Matching a large by-value array (1)
Uninhabited elements (1)
Zero-sized elements (3)
Evaluation in const contexts (2)
Misc (1)
History
2012-12-08, commit 1968cb3
Author: Jakub Wieczorek
Reviewers: @graydon
This is where slice patterns were first implemented. It is particularly instructive to read the
vec-tail-matching.rs
test.2013-08-20, issue Matches on &mut[] move the .. match & don't consider disjointness #8636
Author: @huonw
Fixed by @mikhail-m1 in fix for issue #8636 #51894
The issue describes a problem wherein the borrow-checker would not consider disjointness when checking mutable references in slice patterns.
2014-09-03, RFC Add RFC to feature gate some slice patterns rfcs#164
Author: @brson
Reviewers: The Core Team
The RFC decided to feature gate slice patterns due to concerns over lack of oversight and the exhaustiveness checking logic not having seen much love. Since then, the exhaustivenss checking algorithm, in particular for slice patterns, has been substantially refactored and tests have been added.
2014-09-03, RFC RFC: Change syntax of subslice matching rfcs#202
Author: @krdln
Reviewers: The Core Team
In 2019, RFC: Finalize syntax for slice patterns with subslices rfcs#2359 changed the syntax again in favor of
..
andxs @ ..
.2014-09-08, PR librustc: Feature gate subslice matching in non-tail positions. #17052
Author: @pcwalton
Reviewers: @alexcrichton and @sfackler
This implemented the feature gating as specified in Add RFC to feature gate some slice patterns rfcs#164.
2015-03-06, RFC RFC: Array pattern adjustments rfcs#495
Author: @P1start
Reviewers: The Core Team
The RFC changed array and slice patterns like so:
[T; N]
) and slice types ([T]
), not references to slice types (& mut? [T]
).[T; N]
or[T]
, not& mut? [T]
.These changes were made to fit with the introduction of DSTs like
[T]
as well as with e.g.box [a, b, c]
(Box<[T]>
) in the future. All points remain true today, in particular with the advent of default binding modes.2015-03-22, PR Fix binding unsized expressions to ref patterns #23361
Author: @petrochenkov
Reviewers: Unknown
The PR adjusted codegen ("trans") such that
let ref a = *"abcdef"
would no longer ICE, paving the way for RFC: Array pattern adjustments rfcs#495.2015-05-28, PR Feature gate *all* slice patterns. #23121 #23794
Author: @brson
Reviewers: @nrc
The PR feature gated slice patterns in more contexts.
2016-06-09, PR Implement RFC495 semantics for slice patterns #32202
Author: @arielb1
Reviewers: @eddyb and @nikomatsakis
This implemented RFC RFC: Array pattern adjustments rfcs#495 via a MIR based implementation fixing some bugs.
2016-09-16, PR a few move-checker improvements #36353
Author: @arielb1
Reviewers: @nagisa, @pnkfelix, and @nikomatsakis
The PR made move-checker improvements prohibiting moves out of slices.
2018-02-17, PR add transform for uniform array move out #47926
Author: @mikhail-m1
Reviewers: @nikomatsakis
This added the
UniformArrayMoveOut
which converted move-out-from-array bySubslice
andConstIndex {.., from_end: true }
toConstIndex
move out(s) from the beginning of the array. This fixed some problems with the MIR borrow-checker and drop-elaboration of arrays.Unfortunately, the transformation ultimately proved insufficient for soundness and was removed and replaced in Remove uniform array move MIR passes #66650.
2018-02-19, PR restore Subslice move out from array after elaborate drops and borrowck #48355
Author: @mikhail-m1
Reviewers: @nikomatsakis
After add transform for uniform array move out #47926, this restored some MIR optimizations after drop-elaboration and borrow-checking.
2018-03-20, PR Stabilize slice patterns without
..
#48516Author: @petrochenkov
Reviewers: @nikomatsakis
This stabilized fixed length slice patterns
[a, b, c]
without variable length subslices and moved subslice patterns into#![feature(slice_patterns)
. See Stabilize fixed-length slice patterns (excluding..
) #48836 wherein the language team accepted the proposal to stabilize.2018-07-06, PR fix for issue #8636 #51894
Author: @mikhail-m1
Reviewers: @nikomatsakis
Matches on &mut[] move the .. match & don't consider disjointness #8636 was fixed such that the borrow-checker would consider disjointness with respect to mutable references in slice patterns.
2019-06-30, RFC RFC: Finalize syntax for slice patterns with subslices rfcs#2359
Author: @petrochenkov
Reviewers: The Language Team
The RFC switched the syntax of subslice patterns to
{$binding @}? ..
as opposed to.. $pat?
(which was what the RFC originally proposed). This RFC reignited the work towards finishing the implementation and the testing of slice patterns which eventually lead to this stabilization proposal.2019-06-30, RFC Mini-RFC: Make
..
a pattern syntactically rfcs#2707Author: @petrochenkov
Reviewers: The Language Team
This RFC built upon RFC: Finalize syntax for slice patterns with subslices rfcs#2359 turning
..
into a full-fledged pattern (Pat |= Rest:".." ;
), as opposed to a special part of slice and tuple patterns, moving previously syntactic restrictions into semantic ones.2019-07-03, PR Switch tracking issue for
#![feature(slice_patterns)]
#62255Author: @Centril
Reviewers: @varkor
This closed the old tracking issue (Tracking issue for RFC #495 (features
slice_patterns
andadvanced_slice_patterns
) #23121) in favor of the new one (Tracking issue for#![feature(slice_patterns)]
#62254) due to the new RFCs having been accepted.2019-07-28, PR Implement RFC 2707 + Parser recovery for range patterns #62550
Author: @Centril
Reviewers: @petrochenkov and @eddyb
Implemented RFCs Mini-RFC: Make
..
a pattern syntactically rfcs#2707 and RFC: Finalize syntax for slice patterns with subslices rfcs#2359 by introducing the..
syntactic rest pattern form as well as changing the lowering to subslice and subtuple patterns and the necessary semantic restrictions as per the RFCs.Moreover, the parser was cleaned up to use a more generic framework for parsing sequences of things. This framework was employed in parsing slice patterns.
Finally, the PR introduced parser recovery for half-open ranges (e.g.,
..X
,..=X
, andX..
), demonstrating in practice that the RFCs proposed syntax will enable half-open ranges if we want to add those (which is done in IntroduceX..
,..X
, and..=X
range patterns #67258).2019-07-30, PR Add syntactic and semantic tests for rest patterns, i.e.
..
#63111Author: @Centril
Reviewers: @estebank
Added a test which comprehensively exercised the parsing of
..
rest patterns. That is, the PR exercised the specification in Mini-RFC: Make..
a pattern syntactically rfcs#2707. Moreover, a test was added for the semantic restrictions noted in the RFC.2019-07-31, PR Subslice patterns: Test passing static & dynamic semantics. #63129
Author: @Centril
Reviewers: @oli-obk
Hardened the test-suite for subslice and subarray patterns with a run-pass tests. This test exercises both type checking and dynamic semantics.
2019-09-15, PR Parse
..
as a full pattern rust-analyzer#1848Author: @ecstatic-morse
Reviewers: @matklad
This implemented the syntactic change (rest patterns,
..
) in rust-analyzer.2019-11-05, PR Clarify pattern-matching usefulness algorithm #65874
Author: @Nadrieril
Reviewers: @varkor, @arielb1, and @Centril
Usefulness / exhaustiveness checking saw a major refactoring clarifying the analysis by emphasizing that each row of the matrix can be seen as a sort of stack from which we pop constructors.
2019-11-12, PR Refactor slice pattern usefulness checking #66129
Author: @Nadrieril
Reviewers: @varkor, @Centril, and @estebank
Usefulness / exhaustiveness checking of slice patterns were refactored in favor of clearer code. Before the PR, variable-length slice patterns were eagerly expanded into a union of fixed-length slices. They now have their own special constructor, which allows expanding them more lazily. As a side-effect, this improved diagnostics. Moreover, the test suite for exhaustiveness checking of slice patterns was hardened.
2019-11-20, PR Fix #53820 #66497
Author: @Nadrieril
Reviewers: @varkor and @Centril
Building on the previous PR, this one fixed a bug Stack overflow compiling slice pattern for big array #53820 wherein sufficiently large subarray patterns (
match [0u8; 16*1024] { [..] => {}}
) would result in crashing the compiler with a stack-overflow. The PR did this by treating array patterns in a more first-class way (using a variable-length mechanism also used for slices) rather than like large tuples. This also had the effect of improving diagnostics for non-exhaustive matches.2019-11-28, PR Fix #65413 #66603
Author: @Nadrieril
Reviewers: @varkor
Fixed a bug Constants, slice patterns, and exhaustiveness interact in suboptimal ways #65413 wherein constants, slice patterns, and exhaustiveness checking interacted in a suboptimal way conspiring to suggest that a reachable arm was in fact unreachable.
2019-12-12, PR Remove uniform array move MIR passes #66650
Author: @matthewjasper
Reviewers: @pnkfelix and @Centril
Removed the
UniformArrayMoveOut
MIR transformation pass in favor of baking the necessary logic into the borrow-checker, drop elaboration and MIR building itself. This fixed a number of bugs, including a soundness hole Slice/Array patterns are not correctly move checked #66502. Moreover, the PR added a slew of tests for borrow- and move-checking of slice patterns as well as a test for the dynamic semantics of dropping subslice patterns.2019-12-16, PR Improve typeck & lowering docs for slice patterns #67318
Author: @Centril
Reviewers: @matthewjasper
Improved documentation for AST->HIR lowering + type checking of slice as well as minor code simplification.
2019-12-21, PR Test slice patterns more #67467
Author: @matthewjasper
Reviewers: @oli-obk, @RalfJung, and @Centril
Fixed bugs in the const evaluation of slice patterns and added tests for const evaluation as well as borrow- and move-checking.
2019-12-22, PR Cleanup
lower_pattern_unadjusted
& Improve slice pat typeck #67439Author: @Centril
Reviewers: @matthewjasper
Cleaned up HAIR lowering of slice patterns, removing special cased dead code for the unrepresentable
[a, b] @ ..
. The PR also refactored type checking for slice patterns.2019-12-23, PR Fix ICE in mir interpretation #67546
Author: @oli-obk
Reviewers: @varkor and @RalfJung
Fixed an ICE in the MIR interpretation of slice patterns.
2019-12-24, PR Initial implementation of
#![feature(bindings_after_at)]
#66296Author: @Centril
Reviewers: @pnkfelix and @matthewjasper
This implemented
#![feature(bindings_after_at)]
which allows writing e.g.a @ Some([_, b @ ..])
. This is not directly linked to slice patterns other than with patterns in general. However, the combination of the feature andslice_patterns
received some testing in the PR.2020-01-09, PR slice patterns: harden match-based borrowck tests #67990
Author: @Centril
Reviewers: @matthewjasper
This hardened move-checker tests for
match
expressions in relation to [nll]_
patterns should not count as borrows #53114.This PR stabilizes
slice_patterns
.Related / possible future work
There is on-going work to improve pattern matching in other ways (the relevance of some of these are indirect, and only by composition):
OR-patterns,
pat_0 | .. | pat_n
is almost implemented.Tracking issue: Tracking issue for RFC 2535, 2530, 2175, "Or patterns, i.e
Foo(Bar(x) | Baz(x))
" #54883Bindings after
@
, e.g.,x @ Some(y)
is implemented.Tracking issue: Tracking issue for bindings in sub-patterns after
@
s (feature(bindings_after_at)
) #65490Half-open range patterns, e.g.,
X..
,..X
, and..=X
as well as exclusive range patterns, e.g.,X..Y
.Tracking issue: Tracking issue for
..X
, and..=X
(#![feature(half_open_range_patterns)]
) #67264 and Tracking issue for exclusive range patterns #37854The relevance here is that this work demonstrates, in practice, that there are no syntactic conflicts introduced by the stabilization of subslice patterns.
As for more direct improvements to slice patterns, some avenues could be:
Box patterns, e.g.,
box [a, b, .., c]
to match onBox<[T]>
.Tracking issue: Tracking issue for
box_patterns
feature #29641This issue currently has no path to stabilization.
Note that it is currently possible to match on
Box<[T]>
orVec<T>
by first dereferencing them to slices.DerefPure
, which would allow e.g., using slice patterns to match onVec<T>
(e.g., moving out of it).Another idea which was raised by RFC 2707 and RFC 2359 was to allow binding a subtuple pattern. That is, we could allow
(a, xs @ .., b)
. However, while we could allow by-value bindings to..
as inxs @ ..
at zero cost, the same cannot be said of by-reference bindings, e.g.(a, ref xs @ .., b)
. The issue here becomes that for a reference to be legal, we have to representxs
contiguously in memory. In effect, we are forced into aHList
based representation for tuples.