Don't derive Debug for `OnceWith` & `RepeatWith`
Closures don't impl Debug, so the derived impl is kinda useless. The behavior of not debug-printing closures is consistent with the rest of the iterator adapters/sources.
Update `rand` in the stdlib tests, and remove the `getrandom` feature from it.
The main goal is actually removing `getrandom`, so that eventually we can allow running the stdlib test suite on tier3 targets which don't have `getrandom` support. Currently those targets can only run the subset of stdlib tests that exist in uitests, and (generally speaking), we prefer not to test libstd functionality in uitests, which came up recently in https://github.com/rust-lang/rust/pull/104095 and https://github.com/rust-lang/rust/pull/104185. Additionally, the fact that we can't update `rand`/`getrandom` means we're stuck with the old set of tier3 targets, so can't test new ones.
~~Anyway, I haven't checked that this actually does allow use on tier3 targets (I think it does not, as some work is needed in stdlib submodules) but it moves us slightly closer to this, and seems to allow at least finally updating our `rand` dep, which definitely improves the status quo.~~ Checked and works now.
For the most part, our tests and benchmarks are fine using hard-coded seeds. A couple tests seem to fail with this (stuff manipulating the environment expecting no collisions, for example), or become pointless (all inputs to a function become equivalent). In these cases I've done a (gross) dance (ab)using `RandomState` and `Location::caller()` for some extra "entropy".
Trying to share that code seems *way* more painful than it's worth given that the duplication is a 7-line function, even if the lines are quite gross. (Keeping in mind that sharing it would require adding `rand` as a non-dev dep to std, and exposing a type from it publicly, all of which sounds truly awful, even if done behind a perma-unstable feature).
See also some previous attempts:
- https://github.com/rust-lang/rust/pull/86963 (in particular https://github.com/rust-lang/rust/pull/86963#issuecomment-885438936 which explains why this is non-trivial)
- https://github.com/rust-lang/rust/pull/89131
- https://github.com/rust-lang/rust/pull/96626#issuecomment-1114562857 (I tried in that PR at the same time, but settled for just removing the usage of `thread_rng()` from the benchmarks, since that was the main goal).
- https://github.com/rust-lang/rust/pull/104185
- Probably more. It's very tempting of a thing to "just update".
r? `@Mark-Simulacrum`
Suggest `impl Fn*` and `impl Future` in `-> _` return suggestions
Follow-up to #106172, only the last commit is relevant. Can rebase once that PR is landed for easier review.
Suggests `impl Future` and `impl Fn{,Mut,Once}` in `-> _` return suggestions.
r? `@estebank`
default OOM handler: use non-unwinding panic, to match std handler
The OOM handler in std will by default abort. This adjusts the default in liballoc to do the same, using the `can_unwind` flag on the panic info to indicate a non-unwinding panic.
In practice this probably makes little difference since the liballoc default will only come into play in no-std situations where people write a custom panic handler, which most likely will not implement unwinding. But still, this seems more consistent.
Cc `@rust-lang/wg-allocators,` https://github.com/rust-lang/rust/issues/66741
`Split*::as_str` refactor
I've made this patch almost a year ago, so the rename and the behavior change are in one commit, sorry 😅
This fixes#84974, as it's required to make other changes work.
This PR
- Renames `as_str` method of string `Split*` iterators to `remainder` (it seems like the `as_str` name was confusing to users)
- Makes `remainder` return `Option<&str>`, to distinguish between "the iterator is exhausted" and "the tail is empty", this was [required on the tracking issue](https://github.com/rust-lang/rust/issues/77998#issuecomment-832696619)
r? `@m-ou-se`
Context is no longer Sync so this doesn't work.
error[E0277]: `*mut ()` cannot be shared between threads safely
--> library/core/tests/task.rs:24:21
|
24 | static CONTEXT: Context<'static> = Context::from_waker(&WAKER);
| ^^^^^^^^^^^^^^^^ `*mut ()` cannot be shared between threads safely
|
= help: within `Context<'static>`, the trait `Sync` is not implemented for `*mut ()`
= note: required because it appears within the type `PhantomData<*mut ()>`
= note: required because it appears within the type `Context<'static>`
= note: shared static variables must have a type that implements `Sync`
Revert "Implement allow-by-default `multiple_supertrait_upcastable` lint"
This is a clean revert of #105484.
I confirmed that reverting that PR fixes the regression reported in #106247. ~~I can't say I understand what this code is doing, but maybe it can be re-landed with a different implementation.~~ **Edit:** https://github.com/rust-lang/rust/issues/106247#issuecomment-1367174384 has an explanation of why #105484 ends up surfacing spurious `where_clause_object_safety` errors. The implementation of `where_clause_object_safety` assumes we only check whether a trait is object safe when somebody actually uses that trait with `dyn`. However the implementation of `multiple_supertrait_upcastable` added in the problematic PR involves checking *every* trait for whether it is object-safe.
FYI `@nbdd0121` `@compiler-errors`
Add #[inline] markers to once_cell methods
Added inline markers to all simple methods under the `once_cell` feature. Relates to #74465 and #105587
This should not block #105587
Replace libstd, libcore, liballoc terminology in docs
Fixes#103551. I changed line comments containing the outdated terms as well.
It would be great if someone with more experience could weigh in on whether these changes introduce ambiguity as suggested in https://github.com/rust-lang/rust/issues/103551#issuecomment-1291225315.
doc: clearer and more correct Iterator::scan
The `Iterator::scan` documentation seemed a little misleading to my newcomer
eyes, and this tries to address that.
* I found “similar to `fold`” unhelpful because (a) the similarity is only that
they maintain state between iterations, and (b) the _dissimilarity_ is no less
important: one returns a final value and the other an iterator. So this
replaces that with “which, like `fold`, holds internal state, but unlike
`fold`, produces a new iterator.
* I found “the return value from the closure, an `Option`, is yielded by the
iterator” to be downright incorrect, because “yielded by the iterator” means
“returned by the `next` method wrapped in `Some`”, so this implied that `scan`
would convert an input iterator of `T` to an output iterator of `Option<T>`.
So this replaces “yielded by the iterator” with “returned by the `next`
method” and elaborates: “Thus the closure can return `Some(value)` to yield
`value`, or `None` to end the iteration.”
* This also changes the example to illustrate the latter point by returning
`None` to terminate the iteration early based on `state`.
Bump master bootstrap compiler
This PR bumps the bootstrap compiler to the beta created earlier this week, cherry-picks the stabilization version number updates, and updates the `cfg(bootstrap)`s.
r? `@Mark-Simulacrum`
Implement allow-by-default `multiple_supertrait_upcastable` lint
The lint detects when an object-safe trait has multiple supertraits.
Enabled in libcore and liballoc as they are low-level enough that many embedded programs will use them.
r? `@nikomatsakis`
Clarify docs of `RefCell`
Comparison operators only panic if the `RefCell` is mutably borrowed, and `RefCell::swap()` can also panic if swapping a `RefCell` with itself.
Fix UnsafeCell Documentation Spelling Error
This fixes the spelling of "deallocated" (instead of the original "deallocted") In the `cell.rs` source file. Honestly probably not worth the time to evaluate, but since it doesn't involve any code change, I figure why not?
Fix a formatting error in Iterator::for_each docs
There is a formatting error (extra space in an assignment) in the documentation of `core::iter::Iterator::for_each`, which I have fixed in this pull request.
More inference-friendly API for lazy
The signature for new was
```
fn new<F>(f: F) -> Lazy<T, F>
```
Notably, with `F` unconstrained, `T` can be literally anything, and just `let _ = Lazy::new(|| 92)` would not typecheck.
This historiacally was a necessity -- `new` is a `const` function, it couldn't have any bounds. Today though, we can move `new` under the `F: FnOnce() -> T` bound, which gives the compiler enough data to infer the type of T from closure.