Currently pretty much all of the btree_map and btree_set ones fail, as
well as linked_list::DrainFilter.
error: higher-ranked lifetime error
--> library/alloc/tests/autotraits.rs:38:5
|
38 | / require_send_sync(async {
39 | | let _v = None::<alloc::collections::btree_map::Iter<'_, &u32, &u32>>;
40 | | async {}.await;
41 | | });
| |______^
|
= note: could not prove `impl Future<Output = ()>: Send`
error: implementation of `Send` is not general enough
--> library/alloc/tests/autotraits.rs:56:5
|
56 | / require_send_sync(async {
57 | | let _v = None::<
58 | | alloc::collections::btree_map::DrainFilter<
59 | | '_,
... |
65 | | async {}.await;
66 | | });
| |______^ implementation of `Send` is not general enough
|
= note: `Send` would have to be implemented for the type `&'0 u32`, for any lifetime `'0`...
= note: ...but `Send` is actually implemented for the type `&'1 u32`, for some specific lifetime `'1`
error: implementation of `Send` is not general enough
--> library/alloc/tests/autotraits.rs:68:5
|
68 | / require_send_sync(async {
69 | | let _v = None::<alloc::collections::btree_map::Entry<'_, &u32, &u32>>;
70 | | async {}.await;
71 | | });
| |______^ implementation of `Send` is not general enough
|
= note: `Send` would have to be implemented for the type `&'0 u32`, for any lifetime `'0`...
= note: ...but `Send` is actually implemented for the type `&'1 u32`, for some specific lifetime `'1`
error: higher-ranked lifetime error
--> library/alloc/tests/autotraits.rs:88:5
|
88 | / require_send_sync(async {
89 | | let _v = None::<alloc::collections::btree_map::Iter<'_, &u32, &u32>>;
90 | | async {}.await;
91 | | });
| |______^
|
= note: could not prove `impl Future<Output = ()>: Send`
error: implementation of `Send` is not general enough
--> library/alloc/tests/autotraits.rs:93:5
|
93 | / require_send_sync(async {
94 | | let _v = None::<alloc::collections::btree_map::IterMut<'_, &u32, &u32>>;
95 | | async {}.await;
96 | | });
| |______^ implementation of `Send` is not general enough
|
= note: `Send` would have to be implemented for the type `&'0 u32`, for any lifetime `'0`...
= note: ...but `Send` is actually implemented for the type `&'1 u32`, for some specific lifetime `'1`
error: higher-ranked lifetime error
--> library/alloc/tests/autotraits.rs:98:5
|
98 | / require_send_sync(async {
99 | | let _v = None::<alloc::collections::btree_map::Keys<'_, &u32, &u32>>;
100 | | async {}.await;
101 | | });
| |______^
|
= note: could not prove `impl Future<Output = ()>: Send`
error: implementation of `Send` is not general enough
--> library/alloc/tests/autotraits.rs:103:5
|
103 | / require_send_sync(async {
104 | | let _v = None::<alloc::collections::btree_map::OccupiedEntry<'_, &u32, &u32>>;
105 | | async {}.await;
106 | | });
| |______^ implementation of `Send` is not general enough
|
= note: `Send` would have to be implemented for the type `&'0 u32`, for any lifetime `'0`...
= note: ...but `Send` is actually implemented for the type `&'1 u32`, for some specific lifetime `'1`
error: implementation of `Send` is not general enough
--> library/alloc/tests/autotraits.rs:108:5
|
108 | / require_send_sync(async {
109 | | let _v = None::<alloc::collections::btree_map::OccupiedError<'_, &u32, &u32>>;
110 | | async {}.await;
111 | | });
| |______^ implementation of `Send` is not general enough
|
= note: `Send` would have to be implemented for the type `&'0 u32`, for any lifetime `'0`...
= note: ...but `Send` is actually implemented for the type `&'1 u32`, for some specific lifetime `'1`
error: higher-ranked lifetime error
--> library/alloc/tests/autotraits.rs:113:5
|
113 | / require_send_sync(async {
114 | | let _v = None::<alloc::collections::btree_map::Range<'_, &u32, &u32>>;
115 | | async {}.await;
116 | | });
| |______^
|
= note: could not prove `impl Future<Output = ()>: Send`
error: implementation of `Send` is not general enough
--> library/alloc/tests/autotraits.rs:118:5
|
118 | / require_send_sync(async {
119 | | let _v = None::<alloc::collections::btree_map::RangeMut<'_, &u32, &u32>>;
120 | | async {}.await;
121 | | });
| |______^ implementation of `Send` is not general enough
|
= note: `Send` would have to be implemented for the type `&'0 u32`, for any lifetime `'0`...
= note: ...but `Send` is actually implemented for the type `&'1 u32`, for some specific lifetime `'1`
error: implementation of `Send` is not general enough
--> library/alloc/tests/autotraits.rs:123:5
|
123 | / require_send_sync(async {
124 | | let _v = None::<alloc::collections::btree_map::VacantEntry<'_, &u32, &u32>>;
125 | | async {}.await;
126 | | });
| |______^ implementation of `Send` is not general enough
|
= note: `Send` would have to be implemented for the type `&'0 u32`, for any lifetime `'0`...
= note: ...but `Send` is actually implemented for the type `&'1 u32`, for some specific lifetime `'1`
error: higher-ranked lifetime error
--> library/alloc/tests/autotraits.rs:128:5
|
128 | / require_send_sync(async {
129 | | let _v = None::<alloc::collections::btree_map::Values<'_, &u32, &u32>>;
130 | | async {}.await;
131 | | });
| |______^
|
= note: could not prove `impl Future<Output = ()>: Send`
error: implementation of `Send` is not general enough
--> library/alloc/tests/autotraits.rs:133:5
|
133 | / require_send_sync(async {
134 | | let _v = None::<alloc::collections::btree_map::ValuesMut<'_, &u32, &u32>>;
135 | | async {}.await;
136 | | });
| |______^ implementation of `Send` is not general enough
|
= note: `Send` would have to be implemented for the type `&'0 u32`, for any lifetime `'0`...
= note: ...but `Send` is actually implemented for the type `&'1 u32`, for some specific lifetime `'1`
error: higher-ranked lifetime error
--> library/alloc/tests/autotraits.rs:146:5
|
146 | / require_send_sync(async {
147 | | let _v = None::<alloc::collections::btree_set::Difference<'_, &u32>>;
148 | | async {}.await;
149 | | });
| |______^
|
= note: could not prove `impl Future<Output = ()>: Send`
error: implementation of `Send` is not general enough
--> library/alloc/tests/autotraits.rs:151:5
|
151 | / require_send_sync(async {
152 | | let _v = None::<alloc::collections::btree_set::DrainFilter<'_, &u32, fn(&&u32) -> bool>>;
153 | | async {}.await;
154 | | });
| |______^ implementation of `Send` is not general enough
|
= note: `Send` would have to be implemented for the type `&'0 u32`, for any lifetime `'0`...
= note: ...but `Send` is actually implemented for the type `&'1 u32`, for some specific lifetime `'1`
error: higher-ranked lifetime error
--> library/alloc/tests/autotraits.rs:156:5
|
156 | / require_send_sync(async {
157 | | let _v = None::<alloc::collections::btree_set::Intersection<'_, &u32>>;
158 | | async {}.await;
159 | | });
| |______^
|
= note: could not prove `impl Future<Output = ()>: Send`
error: higher-ranked lifetime error
--> library/alloc/tests/autotraits.rs:166:5
|
166 | / require_send_sync(async {
167 | | let _v = None::<alloc::collections::btree_set::Iter<'_, &u32>>;
168 | | async {}.await;
169 | | });
| |______^
|
= note: could not prove `impl Future<Output = ()>: Send`
error: higher-ranked lifetime error
--> library/alloc/tests/autotraits.rs:171:5
|
171 | / require_send_sync(async {
172 | | let _v = None::<alloc::collections::btree_set::Range<'_, &u32>>;
173 | | async {}.await;
174 | | });
| |______^
|
= note: could not prove `impl Future<Output = ()>: Send`
error: higher-ranked lifetime error
--> library/alloc/tests/autotraits.rs:176:5
|
176 | / require_send_sync(async {
177 | | let _v = None::<alloc::collections::btree_set::SymmetricDifference<'_, &u32>>;
178 | | async {}.await;
179 | | });
| |______^
|
= note: could not prove `impl Future<Output = ()>: Send`
error: higher-ranked lifetime error
--> library/alloc/tests/autotraits.rs:181:5
|
181 | / require_send_sync(async {
182 | | let _v = None::<alloc::collections::btree_set::Union<'_, &u32>>;
183 | | async {}.await;
184 | | });
| |______^
|
= note: could not prove `impl Future<Output = ()>: Send`
error: future cannot be sent between threads safely
--> library/alloc/tests/autotraits.rs:243:23
|
243 | require_send_sync(async {
| _______________________^
244 | | let _v =
245 | | None::<alloc::collections::linked_list::DrainFilter<'_, &u32, fn(&mut &u32) -> bool>>;
246 | | async {}.await;
247 | | });
| |_____^ future created by async block is not `Send`
|
= help: within `impl Future<Output = ()>`, the trait `Send` is not implemented for `NonNull<std::collections::linked_list::Node<&u32>>`
note: future is not `Send` as this value is used across an await
--> library/alloc/tests/autotraits.rs:246:17
|
244 | let _v =
| -- has type `Option<std::collections::linked_list::DrainFilter<'_, &u32, for<'a, 'b> fn(&'a mut &'b u32) -> bool>>` which is not `Send`
245 | None::<alloc::collections::linked_list::DrainFilter<'_, &u32, fn(&mut &u32) -> bool>>;
246 | async {}.await;
| ^^^^^^ await occurs here, with `_v` maybe used later
247 | });
| - `_v` is later dropped here
note: required by a bound in `require_send_sync`
--> library/alloc/tests/autotraits.rs:3:25
|
3 | fn require_send_sync<T: Send + Sync>(_: T) {}
| ^^^^ required by this bound in `require_send_sync`
error: future cannot be shared between threads safely
--> library/alloc/tests/autotraits.rs:243:23
|
243 | require_send_sync(async {
| _______________________^
244 | | let _v =
245 | | None::<alloc::collections::linked_list::DrainFilter<'_, &u32, fn(&mut &u32) -> bool>>;
246 | | async {}.await;
247 | | });
| |_____^ future created by async block is not `Sync`
|
= help: within `impl Future<Output = ()>`, the trait `Sync` is not implemented for `NonNull<std::collections::linked_list::Node<&u32>>`
note: future is not `Sync` as this value is used across an await
--> library/alloc/tests/autotraits.rs:246:17
|
244 | let _v =
| -- has type `Option<std::collections::linked_list::DrainFilter<'_, &u32, for<'a, 'b> fn(&'a mut &'b u32) -> bool>>` which is not `Sync`
245 | None::<alloc::collections::linked_list::DrainFilter<'_, &u32, fn(&mut &u32) -> bool>>;
246 | async {}.await;
| ^^^^^^ await occurs here, with `_v` maybe used later
247 | });
| - `_v` is later dropped here
note: required by a bound in `require_send_sync`
--> library/alloc/tests/autotraits.rs:3:32
|
3 | fn require_send_sync<T: Send + Sync>(_: T) {}
| ^^^^ required by this bound in `require_send_sync`
The EH actions stored in the LSDA follows the format of GCC except table
(even for LLVM-generated code). An missing action in the table is the
encoding for `Terminate`, see [1].
The currently code interprets it as `None`, as a workaround for #35011,
an issue that seems to occur in LLVM 3.7 and not after 3.9. These are
very old versions of LLVM and we don't support them anymore, so remove
this workaround and interpret them properly.
Note that LLVM currently does not emit any `Terminate` actions, but GCC
does. Although GCC backend currently doesn't do unwinding, removing it
preemptively would prevent future developers from wasting time to figure
out what's wrong.
[1]: https://github.com/gcc-mirror/gcc/blob/master/libstdc%2B%2B-v3/libsupc%2B%2B/eh_personality.cc#L522-L526
Add `AsFd` implementations for stdio lock types on WASI.
This mirrors the implementations on Unix platforms, and also mirrors the existing `AsRawFd` impls.
This is similar to #100892, but is for the `*Lock` types.
Fix in-place collection leak when remaining element destructor panic
Fixes#101628
cc `@the8472`
I went for the drop guard route, placing it immediately before the `forget_allocation_drop_remaining` call and after the comment, as to signal they are closely related.
I also updated the test to check for the leak, though the only change really needed was removing the leak clean up for miri since now that's no longer leaked.
Implement `Ready::into_inner()`
Tracking issue: #101196.
This implements a method to unwrap the value inside a `Ready` outside an async context.
See https://docs.rs/futures/0.3.24/futures/future/struct.Ready.html#method.into_inner for previous work.
This was discussed in [Zulip beforehand](https://rust-lang.zulipchat.com/#narrow/stream/219381-t-libs/topic/.60Ready.3A.3Ainto_inner.28.29.60):
> An example I'm hitting right now:
I have a cross-platform library that provides a functions that returns a `Future`. The only reason why it returns a `Future` is because the WASM platform requires it, but the native doesn't, to make a cross-platform API that is equal for all I just return a `Ready` on the native targets.
>
> Now I would like to expose native-only functions that aren't async, that users can use to avoid having to deal with async when they are targeting native. With `into_inner` that's easily solvable now.
>
> I want to point out that some internal restructuring could be used to solve that problem too, but in this case it's not that simple, the library uses internal traits that return the `Future` already and playing around with that would introduce unnecessary `cfg` in a lot more places. So it is really only a quality-of-life feature.
Change the parameter name of From::from to `value`
The `From` trait is currently defined as:
```rust
pub trait From<T>: Sized {
fn from(_: T) -> Self;
}
```
The name of the argument is `_`. I am proposing to change it to `value`, ie.
```rust
pub trait From<T>: Sized {
fn from(value: T) -> Self;
}
```
This would be more consistent with the `TryFrom`, which looks like this:
```rust
pub trait TryFrom<T>: Sized {
type Error;
fn try_from(value: T) -> Result<Self, Self::Error>;
}
```
The reason for this proposal is twofold:
1. Consistency with the rest of the standard library. The `TryFrom` trait uses `value`, and no `From` implementation uses the default name (as it is quite useless).
2. When generating trait implementations with rust-analyzer/IntelliJ, the parameter name is copied, and it always has to be changed.
Optionally, another name like `x` could be used. I only propose `value` for consistency with `TryFrom`.
Changing parameter names is not a breaking change.
Note: this was originally posted as an internals thread [here](https://internals.rust-lang.org/t/change-the-argument-name-of-from-from/17480)
Add T to PhantomData impl Debug
This add debug information for `PhantomData`, I believe it's make sense to add this to debug impl of `PhantomData` since `T` is what define what is the `PhantomData` just write `"PhantomData"` is not very useful for debugging.
Alternative:
* `PhantomData::<{}>`
* `PhantomData { t: "str_type" }`
`@rustbot` label +T-libs-api -T-libs
introduce `{char, u8}::is_ascii_octdigit`
This feature adds two new APIs: `char::is_ascii_octdigit` and `u8::is_ascii_octdigit`, under the feature gate `is_ascii_octdigit`. These methods are shorthands for `char::is_digit(self, 8)` and `u8::is_digit(self, 8)`:
```rust
// core::char
impl char {
pub fn is_ascii_octdigit(self) -> bool;
}
// core::num
impl u8 {
pub fn is_ascii_octdigit(self) -> bool;
}
```
---
Couple of things I need help understanding:
- `const`ness: have I used the right attribute in this case?
- is there a way to run the tests for `core::char` alone, instead of `./x.py test library/core`?
docs: Improve AsRef / AsMut docs on blanket impls
There are several issues with the current state of `AsRef` and `AsMut` as [discussed here on IRLO](https://internals.rust-lang.org/t/semantics-of-asref/17016). See also #39397, #45742, #73390, #98905, and the FIXMEs [here](https://github.com/rust-lang/rust/blob/1.62.0/library/core/src/convert/mod.rs#L509-L515) and [here](https://github.com/rust-lang/rust/blob/1.62.0/library/core/src/convert/mod.rs#L530-L536). These issues are difficult to fix. This PR aims to update the documentation to better reflect the status-quo and to give advice on how `AsRef` and `AsMut` should be used.
In particular:
- Explicitly mention that `AsRef` and `AsMut` do not auto-dereference generally for all dereferencable types (but only if inner type is a shared and/or mutable reference)
- Give advice to not use `AsRef` or `AsMut` for the sole purpose of dereferencing
- Suggest providing a transitive `AsRef` or `AsMut` implementation for types which implement `Deref`
- Add new section "Reflexivity" in documentation comments for `AsRef` and `AsMut`
- Provide better example for `AsMut`
- Added heading "Relation to `Borrow`" in `AsRef`'s docs to improve structure
docs: be less harsh in wording for Vec::from_raw_parts
In particular, be clear that it is sound to specify memory not
originating from a previous `Vec` allocation. That is already suggested
in other parts of the documentation about zero-alloc conversions to Box<[T]>.
Incorporate a constraint from `slice::from_raw_parts` that was missing
but needs to be fulfilled, since a `Vec` can be converted into a slice.
Fixes https://github.com/rust-lang/rust/issues/98780.
Document the conditional existence of `alloc::sync` and `alloc::task`.
`alloc` declares
```rust
#[cfg(target_has_atomic = "ptr")]
pub mod sync;
```
but there is no public documentation of this condition. This PR fixes that, so that users of `alloc` can understand how to make their code compile everywhere `alloc` does, if they are writing a library with impls for `Arc`.
The wording is copied from `std::sync::atomic::AtomicPtr`, with additional advice on how to `#[cfg]` for it.
I feel quite uncertain about whether the paragraph I added to `Arc`'s documentation should actually be there, as it is a distraction for anyone using `std`. On the other hand, maybe more reminders that no_std exists would benefit the ecosystem.
Note: `target_has_atomic` is [stabilized](https://github.com/rust-lang/rust/issues/32976) but [not yet documented in the reference](https://github.com/rust-lang/reference/pull/1171).
Improve documentation of `slice::{from_ptr_range, from_ptr_range_mut}`
Document panic conditions (`T` is a ZST) and sync docs of shared/unique version.
cc `@wx-csy`
Improve `FromStr` example
The `from_str` implementation from the example had an `unwrap` that would make it panic on invalid input strings. Instead of panicking, it nows returns an error to better reflect the intented behavior of the `FromStr` trait.
Rollup of 5 pull requests
Successful merges:
- #100451 (Do not panic when a test function returns Result::Err.)
- #102098 (Use fetch_update in sync::Weak::upgrade)
- #102538 (Give `def_span` the same SyntaxContext as `span_with_body`.)
- #102556 (Make `feature(const_btree_len)` implied by `feature(const_btree_new)`)
- #102566 (Add a known-bug test for #102498)
Failed merges:
r? `@ghost`
`@rustbot` modify labels: rollup
Make `feature(const_btree_len)` implied by `feature(const_btree_new)`
...this should fix code that used the old feature that was changed in #102197
cc ```@davidtwco``` it seems like tidy doesn't check `implied_by`, should it?
Do not panic when a test function returns Result::Err.
Rust's test library allows test functions to return a `Result`, so that the test is deemed to have failed if the function returns a `Result::Err` variant. Currently, this works by having `Result` implement the `Termination` trait and asserting in assert_test_result that `Termination::report()` indicates successful completion. This turns a `Result::Err` into a panic, which is caught and unwound in the test library.
This approach is problematic in certain environments where one wishes to save on both binary size and compute resources when running tests by:
* Compiling all code with `--panic=abort` to avoid having to generate unwinding tables, and
* Running most tests in-process to avoid the overhead of spawning new processes.
This change removes the intermediate panic step and passes a `Result::Err` directly through to the test runner.
To do this, it modifies `assert_test_result` to return a `Result<(), String>` where the `Err` variant holds what was previously the panic message. It changes the types in the `TestFn` enum to return `Result<(), String>`.
This tries to minimise the changes to benchmark tests, so it calls `unwrap()` on the `Result` returned by `assert_test_result`, effectively keeping the same behaviour as before.
Some questions for reviewers:
* Does the change to the return types in the enum `TestFn` constitute a breaking change for the library API? Namely, the enum definition is public but the test library indicates that "Currently, not much of this is meant for users" and most of the library API appears to be marked unstable.
* Is there a way to test this change, i.e., to test that no panic occurs if a test returns `Result::Err`?
* Is there a shorter, more idiomatic way to fold `Result<Result<T,E>,E>` into a `Result<T,E>` than the `fold_err` function I added?
The `from_str` implementation from the example had an `unwrap` that would make it panic on invalid input strings. Instead of panicking, it nows returns an error to better reflect the intented behavior of the `FromStr` trait.
Update docs so that deprecated method points to relevant method
The docs for the deprecated 'park_timeout_ms' method suggests that the user 'use park_timeout' method instead (at https://doc.rust-lang.org/std/thread/index.html).
Making a similar change so that the docs for the deprecated `sleep_ms` method suggest that the user `use sleep` method instead.
Until now out-of-range integers in format string literals
were silently ignored. They wrapped around to zero at
usize::MAX, producing unexpected results.
When using debug builds of rustc, such integers in format string
literals even cause an 'attempt to add with overflow' panic in
rustc.
Fix this by producing an error diagnostic for integers in format
string literals which do not fit into usize.
Fixes#102528
Add negation methods for signed non-zero integers.
Performing negation with defined wrapping semantics (such as `wrapping_neg()`) on a non-zero integer currently requires unpacking to a primitive and re-wrapping. Since negation of non-zero signed integers always produces a non-zero result, it is safe to implement the various `*_neg()` methods for `NonZeroI{N}`.
I'm not sure what to do about the `#[unstable(..., issue = "none")]` here -- should I file a tracking issue, or is that handled by the Rust dev team?
ACP: https://github.com/rust-lang/libs-team/issues/105
Add a niche to `Duration`, unix `SystemTime`, and non-apple `Instant`
As the nanoseconds fields is always between `0` and `(NANOS_PER_SEC - 1)` inclusive, use the `rustc_layout_scalar_valid_range` attributes to create a niche in the nanosecond field of `Duration` and `Timespec` (which is used to implement unix `SystemTime` and non-apple unix `Instant`; windows `Instant` is implemented with `Duration` and therefore will also benefit). This change has the benefit of making `Option<T>` the same size as `T` for the previously mentioned types. Also shrinks the nanoseconds field of `Timespec` to a `u32` as nanoseconds do not need the extra range of an `i64`, shrinking `Timespec` by 4 bytes on 32-bit platforms.
r? ```@joshtriplett```
Make `std::os::fd` public.
`std::os::fd` defines types like `OwnedFd` and `RawFd` and is common
between Unix and non-Unix platforms that share a basic file-descriptor
concept. Rust currently uses this internally to simplify its own code,
but it would be useful for external users in the same way, so make it
public.
This means that `OwnedFd` etc. will all appear in three places, for
example on unix platforms:
- `std::os::fd::OwnedFd`
- `std::os::unix::io::OwnedFd`
- `std::os::unix::prelude::OwnedFd`
r? `````@joshtriplett`````
Add `#[rustc_safe_intrinsic]`
This PR adds the `#[rustc_safe_intrinsic]` attribute as mentionned on Zulip. The goal of this attribute is to avoid keeping a list of symbols as the source for stable intrinsics, and instead rely on an attribute. This is similar to `#[rustc_const_stable]` and `#[rustc_const_unstable]`, which among other things, are used to mark the constness of intrinsic functions.
Suggest unwrapping `???<T>` if a method cannot be found on it but is present on `T`.
This suggests various ways to get inside wrapper types if the method cannot be found on the wrapper type, but is present on the wrappee.
For this PR, those wrapper types include `Localkey`, `MaybeUninit`, `RefCell`, `RwLock` and `Mutex`.
Stabilize bench_black_box
This PR stabilize `feature(bench_black_box)`.
```rust
pub fn black_box<T>(dummy: T) -> T;
```
The FCP was completed in https://github.com/rust-lang/rust/issues/64102.
`@rustbot` label +T-libs-api -T-libs
Stabilize `#![feature(mixed_integer_ops)]`
Tracked and FCP completed in #87840.
````@rustbot```` label +T-libs-api +S-waiting-on-review +relnotes
r? rust-lang/t-libs-api
Rollup of 5 pull requests
Successful merges:
- #102143 (Recover from struct nested in struct)
- #102178 (bootstrap: the backtrace feature is stable, no need to allow it any more)
- #102197 (Stabilize const `BTree{Map,Set}::new`)
- #102267 (Don't set RUSTC in the bootstrap build script)
- #102270 (Remove benches from `rustc_middle`)
Failed merges:
r? `@ghost`
`@rustbot` modify labels: rollup
Stabilize const `BTree{Map,Set}::new`
The FCP was completed in #71835.
Since `len` and `is_empty` are not const stable yet, this also creates a new feature for them since they previously used the same `const_btree_new` feature.
Constify Default impl's for Arrays and Tuples.
Allows to create arrays and tuples in const Context using the ~const Default implementation of the inner type.
Constify slice.split_at_mut(_unchecked)
Tracking Issue: [Tracking Issue for const_slice_split_at_mut](https://github.com/rust-lang/rust/issues/101804)
Feature gate: `#![feature(const_slice_split_at_mut)]`
Still requires const_mut_refs to be actually used, but this feature removes the need to manually re implement these functions in a user crate.
Clarify `[T]::select_nth_unstable*` return values
In cases where the nth element is not unique within the slice, it is not
correct to say that the values in the returned triplet include ones for
"all elements" less/greater than that at the given index: indeed one (or
more) such values would then also contain elements equal to that at
the given index.
The text proposed here clarifies exactly what is returned, but in so
doing it is also documenting an implementation detail that previously
wasn't detailed: namely that the returned slices are slices into the
reordered slice. I don't think this can be contentious, because the
lifetimes of those returned slices are bound to that of the original
(now reordered) slice—so there really isn't any other reasonable
implementation that could have this behaviour; but nevertheless it's
probably best if `@rust-lang/libs-api` give it a nod?
Fixes#97982
r? `@m-ou-se`
`@rustbot` label +A-docs +C-bug +T-libs-api -T-libs
Recover error strings on Unix from_lossy_utf8
Some language settings can result in unreliable UTF-8 being produced.
This can result in failing to emit the error string, panicking instead.
from_lossy_utf8 allows us to assume these strings usually will be fine.
This fixes rust-lang#99535.
make Condvar, Mutex, RwLock const constructors work with the `unsupported` impl
applying this patch locally to the `rust-src` component fixes#98378
however, the solution seems wrong to me because PR #97791 didn't add any `rustc_const_stable` attribute to underlying implementations like `std::sys::unix::futex`, so I must be missing something about how const-stability is checked ... maybe the `restricted_std` feature (gate?) has an effect?
fixes#98378fixes#98293 (probably)
Make ZST checks in core/alloc more readable
There's a bunch of these checks because of special handing for ZSTs in various unsafe implementations of stuff.
This lets them be `T::IS_ZST` instead of `mem::size_of::<T>() == 0` every time, making them both more readable and more terse.
*Not* proposed for stabilization. Would be `pub(crate)` except `alloc` wants to use it too.
(And while it doesn't matter now, if we ever get something like #85836 making it a const can help codegen be simpler.)
Add const_closure, Constify Try trait
Adds a struct for creating const `FnMut` closures (for now just copy pasted form my [const_closure](https://crates.io/crates/const_closure) crate).
I'm not sure if this way is how it should be done.
The `ConstFnClosure` and `ConstFnOnceClosure` structs can probably also be entirely removed.
This is then used to constify the try trait.
Not sure if i should add const_closure in its own pr and maybe make it public behind a perma-unstable feature gate.
cc ```@fee1-dead``` ```@rust-lang/wg-const-eval```
Refactor some `std` code that works with pointer offstes
This PR replaces `pointer::offset` in standard library with `pointer::add` and `pointer::sub`, [re]moving some casts and using `.addr()` while we are at it.
This is a more complicated refactor than all other sibling PRs, so take a closer look when reviewing, please 😃 (though I've checked this multiple times and it looks fine).
r? ````@scottmcm````
_split off from #100746, continuation of #100822_
Add `#[inline]` to trivial functions on `core::sync::Exclusive`
When optimizing for size things like these sometimes don't inlined even though they're generic. This is bad because they're no-ops.
Only dodgy one is poll I guess since it forwards to the inner poll, but it's not like we're doing `#[inline(always)]` here.
Update doc after renaming `fn is_zero`
`fn is_zero` has been renamed to `fn count_is_zero` in 1b1bf24636.
This patch updates the documentation accordingly.
Remove `RtlGenRandom` (take two)
First try to use the system preferred RNG but if that fails (e.g. due to a broken system configuration) then fallback to manually opening an algorithm handle.
Use internal iteration in `Iterator` comparison methods
Updates the `Iterator` methods `cmp_by`, `partial_cmp_by`, and `eq_by` to use internal iteration on `self`. I've also extracted their shared logic into a private helper function `iter_compare`, which will either short-circuit once the comparison result is known or return the comparison of the lengths of the iterators.
This change also indirectly benefits calls to `cmp`, `partial_cmp`, `eq`, `lt`, `le`, `gt`, and `ge`.
Unsurprising benchmark results: iterators that benefit from internal iteration (like `Chain`) see a speedup, while other iterators are unaffected.
```
name before ns/iter after ns/iter diff ns/iter diff % speedup
iter::bench_chain_partial_cmp 208,301 54,978 -153,323 -73.61% x 3.79
iter::bench_partial_cmp 55,527 55,702 175 0.32% x 1.00
iter::bench_lt 55,502 55,322 -180 -0.32% x 1.00
```
Since `len` and `is_empty` are not const stable yet, this also
creates a new feature for them since they previously used the same
`const_btree_new` feature.
Fix a typo in `std`'s root docs
Remarkably, this typo has been present for *seven years.* I was so surprised that I reread the text five times and then asked people on the rust Zulip to double-check. :)
Add examples to `bool::then` and `bool::then_some`
Added examples to `bool::then` and `bool::then_some` to show the distinction between the eager evaluation of `bool::then_some` and the lazy evaluation of `bool::then`.
There's a bunch of these checks because of special handing for ZSTs in various unsafe implementations of stuff.
This lets them be `T::IS_ZST` instead of `mem::size_of::<T>() == 0` every time, making them both more readable and more terse.
*Not* proposed for stabilization at this time. Would be `pub(crate)` except `alloc` wants to use it too.
(And while it doesn't matter now, if we ever get something like 85836 making it a const can help codegen be simpler.)
This mirrors the implementations on Unix platforms, and also mirrors the
existing `AsRawFd` impls.
This is similar to #100892, but is for the `*Lock` types.
Extend const_convert with const {FormResidual, Try} for ControlFlow.
Very small change so I just used the existing `const_convert` feature flag. #88674
Newly const API:
```
impl<B, C> const ops::Try for ControlFlow<B, C>;
impl<B, C> const ops::FromResidual for ControlFlow<B, C>;
```
`@usbalbin` I hope it is ok that I added to your feature.
Added which number is computed in compute_float.
The original comment was very elaborate but ultimately did not mention at all what is being computed using parameters `w, q`, only referencing an external article for the algorithm.
Remove use of `io::ErrorKind::Other` in std
The documentation states that this `ErrorKind` is not used by the standard library. Instead, `io::ErrorKind::Uncategorized` should be used.
The two instances are in the unstable API [linux_pidfd](https://github.com/rust-lang/rust/issues/82971).
Added examples to `bool::then` and `bool::then_some` to show the distinction between the eager evaluation of `bool::then_some` and the lazy evaluation of `bool::then`.
Clarify Path::extension() semantics in docs abstract
State up-front and center what shape the returned extension will have, without making the user read through the description and examples.
This is a doc-only change. There are no changes to the API contract and the clarification is in line with what was already stated/promised in the existing doc text - just clarified, summarized, and served bright and early.
Rationale: Various frameworks and libraries for different platforms have their different conventions as to whether an "extension" is ".ext" or just "ext" and anyone that's had to deal with this ambiguity in the past is always double- or triple-checking to make sure the function call returns an extension that matches the expected semantics. Offer the answer to this important question right off the bat instead of making them dig to find it.
```@rustbot``` label +A-docs
Optimize `array::IntoIter`
`.into_iter()` on arrays was slower than it needed to be (especially compared to slice iterator) since it uses `Range<usize>`, which needs to handle degenerate ranges like `10..4`.
This PR adds an internal `IndexRange` type that's like `Range<usize>` but with a safety invariant that means it doesn't need to worry about those cases -- it only handles `start <= end` -- and thus can give LLVM more information to optimize better.
I added one simple demonstration of the improvement as a codegen test.
(`vec::IntoIter` uses pointers instead of indexes, so doesn't have this problem, but that only works because its elements are boxed. `array::IntoIter` can't use pointers because that would keep it from being movable.)
std: use `sync::RwLock` for internal statics
Since `sync::RwLock` is now `const`-constructible, it can be used for internal statics, removing the need for `sys_common::StaticRwLock`. This adds some extra allocations on platforms which need to box their locks (currently SGX and some UNIX), but these will become unnecessary with the lock improvements tracked in #93740.
First try to use the system preferred RNG but if that fails (e.g. due to a broken system configuration) then fallback to manually opening an algorithm handle.
State up-front and center what shape the returned extension will have, without
making the user read through the description and examples.
Rationale: Various frameworks and libraries for different platforms have their
different conventions as to whether an "extension" is ".ext" or just "ext" and
anyone that's had to deal with this ambiguity in the past is always double- or
triple-checking to make sure the function call returns an extension that matches
the expected semantics. Offer the answer to this important question right off
the bat instead of making them dig to find it.
`.into_iter()` on arrays was slower than it needed to be (especially compared to slice iterator) since it uses `Range<usize>`, which needs to handle degenerate ranges like `10..4`.
This PR adds an internal `IndexRange` type that's like `Range<usize>` but with a safety invariant that means it doesn't need to worry about those cases -- it only handles `start <= end` -- and thus can give LLVM more information to optimize better.
I added one simple demonstration of the improvement as a codegen test.
Make `from_waker`, `waker` and `from_raw` unstably `const`
Make
- `Context::from_waker`
- `Context::waker`
- `Waker::from_raw`
`const`.
Also added a small test.
Tone down explanation on RefCell::get_mut
The language around `RefCell::get_mut` is remarkably sketchy and especially to the novice seems to quite strongly discourage using the method ("be cautious", "Also, please be aware", "special circumstances", "usually not what you want"). It was added six years ago in #40634 due to confusion about when to use `get_mut` and `borrow_mut`.
While its signature limits the use-cases for `get_mut`, there is no chance for a safety footgun, and readers can be made aware of `borrow_mut` more softly. I've also just sent a [PR](https://github.com/rust-lang/rust-clippy/issues/9044) to lint situations where `get_mut` could be used to improve ergonomics and performance.
So this PR tones down the language around `get_mut` and also brings it more in line with [`std::sync::Mutex::get_mut()`](https://doc.rust-lang.org/stable/std/sync/struct.Mutex.html#method.get_mut).
We have `[T; N]: TryFrom<Vec<T>>` and `Box<[T; N]>: TryFrom<Box<[T]>>`, but not the combination.
`vec.into_boxed_slice().try_into()` isn't quite a replacement for this, as that'll reallocate unnecessarily in the error case.
**Insta-stable, so needs an FCP**
Update stdarch
This pulls in the following changes:
- [Use simd_bitmask intrinsic in a couple of places](9f0928782b)
- [Remove simd_shuffle<n> usage in favor of simd_shuffle](3fd17e4607)
- [Remove late specifiers in __cpuid_count](f1db941633)
- Helps with #101346
- [Use mov and xchg instead of movl(q) and xchgl(q)](3049a31937)
- [Bump cfg-if dependency to 1.0](f305cc83e7)
- [Fix documentation of __m256bh and __m512bh structs](699c093a42)
r? ``@Amanieu``
array docs - advertise how to get array from slice
On my first Rust project, I spent more time than I care to admit figuring out how to efficiently get an array from a slice. Update the array documentation to explain this a bit more clearly.
(As a side note, it's a bit unfortunate that get-array-from-slice is only available via trait since that means it can't be used from const functions yet.)
Rollup of 6 pull requests
Successful merges:
- #93628 (Stabilize `let else`)
- #98441 (Implement simd_as for pointers)
- #101790 (Do not suggest a placeholder to const and static without a type)
- #101807 (Disallow defaults on type GATs)
- #101915 (doc: fix redirected link in `/index.html`)
- #101931 (doc: Fix a typo in `Rc::make_mut` docstring)
Failed merges:
r? `@ghost`
`@rustbot` modify labels: rollup
Rust's test library allows test functions to return a Result, so that the test is deemed to have failed if the function returns a Result::Err variant. Currently, this works by having Result implement the Termination trait and asserting in assert_test_result that Termination::report() indicates successful completion. This turns a Result::Err into a panic, which is caught and unwound in the test library.
This approach is problematic in certain environments where one wishes to save on both binary size and compute resources when running tests by:
* Compiling all code with --panic=abort to avoid having to generate unwinding tables, and
* Running most tests in-process to avoid the overhead of spawning new processes.
This change removes the intermediate panic step and passes a Result::Err directly through to the test runner.
To do this, it modifies assert_test_result to return a Result<(), String> where the Err variant holds what was previously the panic message. It changes the types in the TestFn enum to return Result<(), String>.
This tries to minimise the changes to benchmark tests, so it calls unwrap() on the Result returned by assert_test_result, effectively keeping the same behaviour as before.
Constify impl Fn* &(mut) Fn*
Tracking Issue: [101803](https://github.com/rust-lang/rust/issues/101803)
Feature gate: `#![feature(const_fn_trait_ref_impls)]`
This feature allows using references to Fn* Items as Fn* Items themself in a const context.
On later stages, the feature is already stable.
Result of running:
rg -l "feature.let_else" compiler/ src/librustdoc/ library/ | xargs sed -s -i "s#\\[feature.let_else#\\[cfg_attr\\(bootstrap, feature\\(let_else\\)#"
