Implement Integer funnel shifts
Tracking issue: rust-lang/rust#145686
ACP: https://github.com/rust-lang/libs-team/issues/642
This implements funnel shifts on primitive integer types. Implements this for cg_llvm, with a fallback impl for everything else
Thanks `@folkertdev` for the fixes and tests
cc `@rust-lang/libs-api`
Constify conversion traits (part 1)
This is the first part of rust-lang/rust#144289 being split into smaller pieces. It adds/moves constness of several traits under the `const_convert` feature:
* `From`
* `Into`
* `TryFrom`
* `TryInto`
* `FromStr`
* `AsRef`
* `AsMut`
* `Borrow`
* `BorrowMut`
* `Deref`
* `DerefMut`
There are a few methods that are intrinsically tied to these traits which I've included in the feature. Particularly, those which are wrappers over `AsRef`:
* `ByteStr::new` (unstable under `bstr` feature)
* `OsStr::new`
* `Path::new`
Those which directly use `Into`:
* `Result::into_ok`
* `Result::into_err`
And those which use `Deref` and `DerefMut`:
* `Pin::as_ref`
* `Pin::as_mut`
* `Pin::as_deref_mut`
* `Option::as_deref`
* `Option::as_deref_mut`
* `Result::as_deref`
* `Result::as_deref_mut`
(note: the `Option` and `Result` methods were suggested by ``@npmccallum`` initially as rust-lang/rust#146101)
The parts which are missing from this PR are:
* Anything that involves heap-allocated types
* Making any method const than the ones listed above
* Anything that could rely on the above, *or* could rely on system-specific code for `OsStr` or `Path` (note: this mostly makes these methods useless since `str` doesn't implement `AsRef<OsStr>` yet, but it's better to track the method for now and add impls later, IMHO)
r? ``@tgross35`` (who mostly already reviewed this)
Implement feature `int_lowest_highest_one` for integer and NonZero types
Tracking issue: rust-lang/rust#145203
Implement the accepted ACP rust-lang/rust#145203 for methods that find the index of the least significant (lowest) and most significant (highest) set bit in an integer for signed, unsigned, and NonZero types.
Also add unit tests for all these types.
Implement the accepted ACP for methods that find the index of the least
significant (lowest) and most significant (highest) set bit in an
integer for signed, unsigned, and NonZero types.
Also add unit tests for all these types.
Add `core::mem::DropGuard`
## 1.0 Summary
This PR introduces a new type `core::mem::DropGuard` which wraps a value and runs a closure when the value is dropped.
```rust
use core::mem::DropGuard;
// Create a new guard around a string that will
// print its value when dropped.
let s = String::from("Chashu likes tuna");
let mut s = DropGuard::new(s, |s| println!("{s}"));
// Modify the string contained in the guard.
s.push_str("!!!");
// The guard will be dropped here, printing:
// "Chashu likes tuna!!!"
```
## 2.0 Motivation
A number of programming languages include constructs like `try..finally` or `defer` to run code as the last piece of a particular sequence, regardless of whether an error occurred. This is typically used to clean up resources, like closing files, freeing memory, or unlocking resources. In Rust we use the `Drop` trait instead, allowing us to [never having to manually close sockets](https://blog.skylight.io/rust-means-never-having-to-close-a-socket/).
While `Drop` (and RAII in general) has been working incredibly well for Rust in general, sometimes it can be a little verbose to setup. In particular when upholding invariants are local to functions, having a quick inline way to setup an `impl Drop` can be incredibly convenient. We can see this in use in the Rust stdlib, which has a number of private `DropGuard` impls used internally:
- [library/alloc/src/vec/drain.rs](9982d6462b/library/alloc/src/vec/drain.rs (L177))
- [library/alloc/src/boxed/thin.rs](9982d6462b/library/alloc/src/boxed/thin.rs (L362))
- [library/alloc/src/slice.rs](9982d6462b/library/alloc/src/slice.rs (L413))
- [library/alloc/src/collections/linked_list.rs](9982d6462b/library/alloc/src/collections/linked_list.rs (L1135))
- [library/alloc/src/collections/binary_heap/mod.rs](9982d6462b/library/alloc/src/collections/binary_heap/mod.rs (L1816))
- [library/alloc/src/collections/btree/map.rs](9982d6462b/library/alloc/src/collections/btree/map.rs (L1715))
- [library/alloc/src/collections/vec_deque/drain.rs](9982d6462b/library/alloc/src/collections/vec_deque/drain.rs (L95))
- [library/alloc/src/vec/into_iter.rs](9982d6462b/library/alloc/src/vec/into_iter.rs (L488))
- [library/std/src/os/windows/process.rs](9982d6462b/library/std/src/os/windows/process.rs (L320))
- [tests/ui/process/win-proc-thread-attributes.rs](9982d6462b/tests/ui/process/win-proc-thread-attributes.rs (L17))
## 3.0 Design
This PR implements what can be considered about the simplest possible design:
1. A single type `DropGuard` which takes both a generic type `T` and a closure `F`.
2. `Deref` + `DerefMut` impls to make it easy to work with the `T` in the guard.
3. An `impl Drop` on the guard which calls the closure `F` on drop.
4. An inherent `fn into_inner` which takes the type `T` out of the guard without calling the closure `F`.
Notably this design does not allow divergent behavior based on the type of drop that has occurred. The [`scopeguard` crate](https://docs.rs/scopeguard/latest/scopeguard/index.html) includes additional `on_success` and `on_onwind` variants which can be used to branch on unwind behavior instead. However [in a lot of cases](https://github.com/rust-lang/rust/issues/143612#issuecomment-3053928328) this doesn’t seem necessary, and using the arm/disarm pattern seems to provide much the same functionality:
```rust
let guard = DropGuard::new((), |s| ...); // 1. Arm the guard
other_function(); // 2. Perform operations
guard.into_inner(); // 3. Disarm the guard
```
`DropGuard` combined with this pattern seems like it should cover the vast majority of use cases for quick, inline destructors. It certainly seems like it should cover all existing uses in the stdlib, as well as all existing uses in crates like [hashbrown](https://github.com/search?q=repo%3Arust-lang%2Fhashbrown%20guard&type=code).
## 4.0 Acknowledgements
This implementation is based on the [mini-scopeguard crate](https://github.com/yoshuawuyts/mini-scopeguard) which in turn is based on the [scopeguard crate](https://docs.rs/scopeguard). The implementations only differ superficially; because of the nature of the problem there is only really one obvious way to structure the solution. And the scopeguard crate got that right!
## 5.0 Conclusion
This PR adds a new type `core::mem::DropGuard` to the stdlib which adds a small convenience helper to create inline destructors with. This would bring the majority of the functionality of the `scopeguard` crate into the stdlib, which is the [49th most downloaded crate](https://crates.io/crates?sort=downloads) on crates.io (387 million downloads).
Given the actual implementation of `DropGuard` is only around 60 lines, it seems to hit that sweet spot of low-complexity / high-impact that makes for a particularly efficient stdlib addition. Which is why I’m putting this forward for consideration; thanks!
Fix CI for drop_guard
fix CI
fix all tidy lints
fix tidy link
add first batch of feedback from review
Add second batch of feedback from review
add third batch of feedback from review
fix failing test
Update library/core/src/mem/drop_guard.rs
Co-authored-by: Ruby Lazuli <general@patchmixolydic.com>
fix doctests
Implement changes from T-Libs-API review
And start tracking based on the tracking issue.
fix tidy lint
Add const support for the float rounding methods floor, ceil, trunc,
fract, round and round_ties_even.
This works by moving the calculation logic from
src/tools/miri/src/intrinsics/mod.rs
into
compiler/rustc_const_eval/src/interpret/intrinsics.rs.
All relevant method definitions were adjusted to include the `const`
keyword for all supported float types: f16, f32, f64 and f128.
The constness is hidden behind the feature gate
feature(const_float_round_methods)
which is tracked in
https://github.com/rust-lang/rust/issues/141555
This commit is a squash of the following commits:
- test: add tests that we expect to pass when float rounding becomes const
- feat: make float rounding methods `const`
- fix: replace `rustc_allow_const_fn_unstable(core_intrinsics)` attribute with `#[rustc_const_unstable(feature = "f128", issue = "116909")]` in `library/core/src/num/f128.rs`
- revert: undo update to `library/stdarch`
- refactor: replace multiple `float_<mode>_intrinsic` rounding methods with a single, parametrized one
- fix: add `#[cfg(not(bootstrap))]` to new const method tests
- test: add extra sign tests to check `+0.0` and `-0.0`
- revert: undo accidental changes to `round` docs
- fix: gate `const` float round method behind `const_float_round_methods`
- fix: remove unnecessary `#![feature(const_float_methods)]`
- fix: remove unnecessary `#![feature(const_float_methods)]` [2]
- revert: undo changes to `tests/ui/consts/const-eval/float_methods.rs`
- fix: adjust after rebase
- test: fix float tests
- test: add tests for `fract`
- chore: add commented-out `const_float_round_methods` feature gates to `f16` and `f128`
- fix: adjust NaN when rounding floats
- chore: add FIXME comment for de-duplicating float tests
- test: remove unnecessary test file `tests/ui/consts/const-eval/float_methods.rs`
- test: fix tests after upstream simplification of how float tests are run
The previous commit moved all test files from `std` to `core` so git
understands the move. Not all functionality is actually testable in
`core`, however, so perform move the relevant portions back. Changes
from inherent to module methods is also done since this is the form of
math operations available in `core` (as `core_float_math`).
Many float-related tests in `std` only depend on `core`, so move the
tests there. This also allows us to verify functions from
`core_float_math`.
Since the majority of test files need to be moved to `coretests`, move
the files here without any cleanup; this is done in a followup commit.
This makes git history slightly cleaner, but coretests will not build
immediately after this commit.
stabilize ptr::swap_nonoverlapping in const
Closes https://github.com/rust-lang/rust/issues/133668
The blocking issue mentioned there is resolved by documentation. We may in the future actually support such code, but that is blocked on https://github.com/rust-lang/const-eval/issues/72 which is non-trivial to implement. Meanwhile, this completes stabilization of all `const fn` in `ptr`. :)
Here's a version of the problematic example to play around with:
https://play.rust-lang.org/?version=nightly&mode=debug&edition=2021&gist=6c390452379fb593e109b8f8ee854d2a
Should be FCP'd with both `@rust-lang/libs-api` and `@rust-lang/lang` since `swap_nonoverlapping` is documented to work as an "untyped" operation but due to the limitation mentioned above, that's not entirely true during const evaluation. I expect this limitation will only be hit in niche corner cases, so the benefits of having this function work most of the time outweigh the downsides of users running into this problem. (Note that unsafe code could already hit this limitation before this PR by doing cursed pointer casts, but having it hidden inside `swap_nonoverlapping` feels a bit different.)
