Remove Option::{unwrap_none, expect_none}.
This removes `Option::unwrap_none` and `Option::expect_none` since we're not going to stabilize them, see https://github.com/rust-lang/rust/issues/62633.
Closes#62633
stabilize debug_non_exhaustive
tracking issue: https://github.com/rust-lang/rust/issues/67364
but it is still an open question whether the other `Debug*` struct's should have a similar method. I would guess that would best be put underneath a new feature gate, as this one seems uncontroversial enough to stabilize as is
Expose str::SplitInclusive in alloc and therefore in std
This seems to have been omitted from the beginning when this feature was first introduced in 86bf96291d. Most users won't need to name this type which is probably why this wasn't noticed in the meantime.
See #83372 for a different but related bug.
### Notes for reviewers
I think I have got this right but TBH I am not very familiar with the relationship between core and std and so on. <strike>I also haven't don't any kind of test (not even a build) yet. I will do a local docs build to see that the type now appears in the std docs.</strike> I did a local docs build and it has made this type appear as `std::str::SplitInclusive` as expected
The linkification of the return value from `str::split_inclusive` teleports me to the online url for `core::str::SplitInclusive`. I think this may be a rustdoc anomaly (similar to #79630 maybe) but I am not sure. Perhaps it means I haven't done the `std` -> `core` referrence correctly.
I made this insta-stable since it seems like simply a bug. Please LMK if that is not right. *(edited to add:)* In particular, IDK how this ought to relate to the (?)current release process.
Add internal io::Error::new_const to avoid allocations.
This makes it possible to have a io::Error containing a message with zero allocations, and uses that everywhere to avoid the *three* allocations involved in `io::Error::new(kind, "message")`.
The function signature isn't perfect, because it needs a reference to the `&str`. So for now, this is just a `pub(crate)` function. Later, we'll be able to use `fn new_const<MSG: &'static str>(kind: ErrorKind)` to make that a bit better. (Then we'll also be able to use some ZST trickery if that would result in more efficient code.)
See https://github.com/rust-lang/rust/issues/83352
This seems to have been omitted from the beginning when this feature
was first introduced in 86bf96291d.
Most users won't need to name this type which is probably why this
wasn't noticed in the meantime.
Signed-off-by: Ian Jackson <ijackson@chiark.greenend.org.uk>
Add `debug-refcell` feature to libcore
See https://rust-lang.zulipchat.com/#narrow/stream/131828-t-compiler/topic/Attaching.20backtraces.20to.20RefCell/near/226273614
for some background discussion
This PR adds a new off-by-default feature `debug-refcell` to libcore.
When enabled, this feature stores additional debugging information in
`RefCell`. This information is included in the panic message when
`borrow()` or `borrow_mut()` panics, to make it easier to track down the
source of the issue.
Currently, we store the caller location for the earliest active borrow.
This has a number of advantages:
* There is only a constant amount of overhead per `RefCell`
* We don't need any heap memory, so it can easily be implemented in core
* Since we are storing the *earliest* active borrow, we don't need any
extra logic in the `Drop` implementation for `Ref` and `RefMut`
Limitations:
* We only store the caller location, not a full `Backtrace`. Until
we get support for `Backtrace` in libcore, this is the best tha we can
do.
* The captured location is only displayed when `borrow()` or
`borrow_mut()` panics. If a crate calls `try_borrow().unwrap()`
or `try_borrow_mut().unwrap()`, this extra information will be lost.
To make testing easier, I've enabled the `debug-refcell` feature by
default. I'm not sure how to write a test for this feature - we would
need to rebuild core from the test framework, and create a separate
sysroot.
Since this feature will be off-by-default, users will need to use
`xargo` or `cargo -Z build-std` to enable this feature. For users using
a prebuilt standard library, this feature will be disabled with zero
overhead.
I've created a simple test program:
```rust
use std::cell::RefCell;
fn main() {
let _ = std::panic::catch_unwind(|| {
let val = RefCell::new(true);
let _first = val.borrow();
let _second = val.borrow();
let _third = val.borrow_mut();
});
let _ = std::panic::catch_unwind(|| {
let val = RefCell::new(true);
let first = val.borrow_mut();
drop(first);
let _second = val.borrow_mut();
let _thid = val.borrow();
});
}
```
which produces the following output:
```
thread 'main' panicked at 'already borrowed: BorrowMutError at refcell_test.rs:6:26', refcell_test.rs:8:26
note: run with `RUST_BACKTRACE=1` environment variable to display a backtrace
thread 'main' panicked at 'already mutably borrowed: BorrowError at refcell_test.rs:16:27', refcell_test.rs:18:25
```
See https://rust-lang.zulipchat.com/#narrow/stream/131828-t-compiler/topic/Attaching.20backtraces.20to.20RefCell/near/226273614
for some background discussion
This PR adds a new off-by-default feature `debug-refcell` to libcore.
When enabled, this feature stores additional debugging information in
`RefCell`. This information is included in the panic message when
`borrow()` or `borrow_mut()` panics, to make it easier to track down the
source of the issue.
Currently, we store the caller location for the earliest active borrow.
This has a number of advantages:
* There is only a constant amount of overhead per `RefCell`
* We don't need any heap memory, so it can easily be implemented in core
* Since we are storing the *earliest* active borrow, we don't need any
extra logic in the `Drop` implementation for `Ref` and `RefMut`
Limitations:
* We only store the caller location, not a full `Backtrace`. Until
we get support for `Backtrace` in libcore, this is the best tha we can
do.
* The captured location is only displayed when `borrow()` or
`borrow_mut()` panics. If a crate calls `try_borrow().unwrap()`
or `try_borrow_mut().unwrap()`, this extra information will be lost.
To make testing easier, I've enabled the `debug-refcell` feature by
default. I'm not sure how to write a test for this feature - we would
need to rebuild core from the test framework, and create a separate
sysroot.
Since this feature will be off-by-default, users will need to use
`xargo` or `cargo -Z build-std` to enable this feature. For users using
a prebuilt standard library, this feature will be disabled with zero
overhead.
I've created a simple test program:
```rust
use std::cell::RefCell;
fn main() {
let _ = std::panic::catch_unwind(|| {
let val = RefCell::new(true);
let _first = val.borrow();
let _second = val.borrow();
let _third = val.borrow_mut();
});
let _ = std::panic::catch_unwind(|| {
let val = RefCell::new(true);
let first = val.borrow_mut();
drop(first);
let _second = val.borrow_mut();
let _thid = val.borrow();
});
}
```
which produces the following output:
```
thread 'main' panicked at 'already borrowed: BorrowMutError { location: Location { file: "refcell_test.rs", line: 6, col: 26 } }', refcell_test.rs:8:26
note: run with `RUST_BACKTRACE=1` environment variable to display a backtrace
thread 'main' panicked at 'already mutably borrowed: BorrowError { location: Location { file: "refcell_test.rs", line: 16, col: 27 } }', refcell_test.rs:18:25
```
Clarify non-exact length in the Iterator::take documentation
There's an example which demonstrates incomplete length case, but it'd be best to explain it right from the start.
Document panicking cases for integer division and remainder
This PR documents the cases when integer division and remainder operations panic. These operations panic in two cases: division by zero and overflow.
It's surprising that these operations always panic on overflow, unlike most other arithmetic operations, which panic on overflow only when `debug_assertions` is enabled. The panic on overflow for the remainder is also surprising because a return value of `0` would be reasonable in this case. ("Overflow" occurs only for `MIN % -1`.) Since the panics on overflow are somewhat surprising, they should be documented.
I guess it's worth asking: is panic on overflow (even when `debug_assertions` is disabled) the intended behavior? If not, what's the best way forward?
Add license metadata for std dependencies
These five crates are in the dependency tree of `std` but lack license metadata:
- `alloc`
- `core`
- `panic_abort`
- `panic_unwind`
- `unwind`
Querying the dependency tree of `std` is a useful thing to be able to do, since these crates will typically be linked into Rust binaries. Tools show the license fields missing, as seen in https://github.com/rust-lang/rust/issues/67014#issuecomment-782704534. This PR adds the license field for the five crates, based on the license of the `std` package and this repo as a whole. I also added the `repository` and `descriptions` fields, since those seem useful. For `description`, I copied text from top-level comments for the respective modules - except for `unwind` which has none.
I also note that https://github.com/rust-lang/rust/pull/73530 attempted to add license metadata for all crates in this repo, but was rejected because there was question about some of them. I hope that this smaller change, focusing only on the runtime dependencies, will be easier to review.
cc `@Mark-Simulacrum` `@Lokathor`
Fix inequality in docs for div_euclid
This commit fixes the statement of the inequality that the Euclidean remainder satisfies. (The remainder is guaranteed to be less than abs(rhs), not rhs.) It also rewords the documentation to make it a little easier to read.
(You might wonder why I've written `abs(rhs)` instead of `rhs.abs()`. Two reasons: first, the `rem_euclid` docs use `abs(rhs)` instead of `rhs.abs()`, and second, the absolute value here is the mathematical absolute value, not the the `.abs()` operation which may overflow.)
Move `std::sys::unix::platform` to `std::sys::unix::ext`
This moves the operating system dependent alias `platform` (`std::os::{linux, android, ...}`) from `std::sys::unix` to `std::sys::unix::ext` (a.k.a. `std::os::unix`), removing the need for compatibility code in `unix_ext` when documenting on another platform.
This is also a step in making it possible to properly move `std::sys::unix::ext` to `std::os::unix`, as ideally `std::sys` should not depend on the rest of `std`.
Fix invalid slice access in String::retain
As noted in #78499, the previous fix was technically still unsound because it accessed elements of a slice outside its bounds (even though they were still inside the same allocation). This PR addresses that concern by switching to a dropguard approach.
Implement TrustedLen and TrustedRandomAccess for Range<integer>, array::IntoIter, VecDequeue's iterators
This should make some `FromIterator` and `.zip()` specializations applicable in a few more cases.
``@rustbot`` label libs-impl
Make NonNull::as_ref (and friends) return refs with unbound lifetimes
# Rationale:
1. The documentation for all of these functions claims that this is what the functions already do, as they all come with this comment:
> You must enforce Rust's aliasing rules, *since the returned lifetime 'a is arbitrarily chosen* and does not necessarily reflect the actual lifetime of the data...
So I think it's just a bug that they weren't this way already. Note that had it not been for this part, I wouldn't be making this PR, so if we decide we won't take this change, I'll follow it up with a docs PR to fix this.
2. This is how the equivalent raw pointer functions behave.
They also take `self` and not `&self`/`&mut self`, but that can't be changed compatibly at this point. This is the next best thing.
3. Without this fix, often code that uses these methods will find it has to expand the lifetime of the result.
(I can't speak for others but even in unsafe-heavy code, needing to do this unexpectedly is a huge red flag -- if Rust thinks something should have a specific lifetime, I assume it's for a reason)
### Can this cause existing code to be unsound?
I'm confident this can't cause new unsoundness since the reference exists for at most its lifetime, but you get a borrow checker error if you do something that would require/allow the reference to exist past its lifetime.
Additionally, the aliasing rules of a reference only applies while the reference exists.
This *must* be the case, as it is required by the rules used by safe code. (That said, the documentation in this file sort of contradicts it, but I think it's just ambiguity between the lifetime `'a` in `&'a T` and lifetime of the `&'a T` reference itself...)
We are increasing the lifetime of these references, but they should already have hard bounds on that lifetime, or they'd have borrow checker errors.
(CC ``@RalfJung`` because I have gone and done the mistake where I say something definitive about aliasing in Rust which is honestly outside the group of things I should make definitive comments about).
# Caveats
1. This is insta-stable (except for on the unstable functions ofc). I don't think there's any other alternative.
2. I don't believe this is a breaking change in practice. In theory someone could be assigning `NonNull::as_ref` to a function pointer of type `fn(&NonNull<T>) -> &T`. Now they'd need to use a slightly different function pointer type which is (probably) incompatible. This seems pathological, but I guess crater could be used if there are concerns.
3. This has no tests. The old version didn't either that I saw. I could add some stuff that fails to compile without it, if that would be useful.
4. Sometimes the NLL borrow checker gives up and decides lifetimes live till the end of the scope, as opposed to the range where they're used. If this change can cause this to happen more, then my soundness rationale is wrong, and it's likely breaking.
In practice this seems super unlikely.
Anyway. That was a lot of typing.
Fixes https://github.com/rust-lang/rust/issues/80183
This allows the optimizer to turn certain iterator pipelines such as
```rust
let vec = vec![0usize; 100];
vec.into_iter().map(|e| e as isize).collect::<Vec<_>>()
```
into a noop.
The optimization only applies when iterator sources are `T: Copy`
since `impl TrustedRandomAccess for IntoIter<T>`.
No such requirement applies to the output type (`Iterator::Item`).
Fix overflowing length in Vec<ZST> to VecDeque
`Vec` can hold up to `usize::MAX` ZST items, but `VecDeque` has a lower
limit to keep its raw capacity as a power of two, so we should check
that in `From<Vec<T>> for VecDeque<T>`. We can also simplify the
capacity check for the remaining non-ZST case.
Before this fix, the new test would fail on the length:
```
thread 'collections::vec_deque::tests::test_from_vec_zst_overflow' panicked at 'assertion failed: `(left == right)`
left: `0`,
right: `9223372036854775808`', library/alloc/src/collections/vec_deque/tests.rs:474:5
note: panic did not contain expected string
panic message: `"assertion failed: `(left == right)`\n left: `0`,\n right: `9223372036854775808`"`,
expected substring: `"capacity overflow"`
```
That was a result of `len()` using a mask `& (size - 1)` with the
improper length. Now we do get a "capacity overflow" panic as soon as
that `VecDeque::from(vec)` is attempted.
Fixes#80167.
Add `as_str` method for split whitespace str iterators
This PR adds `as_str` methods to `SplitWhitespace` and `SplitAsciiWhitespace`
str iterators. The methods return the remainder, similar to `as_str` methods on
`Chars` and other split iterators. This PR is a continuation of https://github.com/rust-lang/rust/pull/75265, which added `as_str` for all other str split iterators.
The feature gate for new methods is `#![feature(str_split_whitespace_as_str)]`.
`SplitWhitespace` and `SplitAsciiWhitespace` use iterators under the hood, so to implement `as_str` it's required to either
1. Make fields of some iterators `pub(crate)`
2. Add getter methods (like `into_inner`, `inner`, `inner_mut`...) to some (all) iterators
3. Completely rewrite `SplitWhitespace` and `SplitAsciiWhitespace`
This PR uses the 1. approach since it's easier to implement and requires fewer changes (and no changes to the public API). If you think that's not the right way, please, tell me.
r? `@m-ou-se`
Fix typo/inaccuracy in the documentation of Iterator::skip_while
One of the examples used to say “this leads to a possibly confusing situation, where the type of the closure is a double reference” while _actually_ referring to the type of the closure _argument_.
This PR just changes a single word in documentation.
`````@rustbot````` modify labels: A-iterators, T-doc, T-lang
Deprecate std::os::haiku::raw, which accidentally wasn't deprecated
In early 2016, all `std::os::*::raw` modules [were deprecated](aa23c98450) in accordance with [RFC 1415](https://github.com/rust-lang/rfcs/blob/master/text/1415-trim-std-os.md). However, at this same time support for Haiku was being added to libstd, landing shortly after the aforementioned commit, and due to some crossed wires a `std::os::haiku::raw` module was added and was not marked as deprecated.
I have been in correspondence with the author of the Haiku patch, ````@nielx,```` who has confirmed that this was simply an oversight and that the definitions from the libc crate should be preferred instead.
Clarify docs for Read::read's return value
Right now the docs for `Read::read`'s return value are phrased in a way that makes it easy for the reader to assume that the return value is never larger than the passed buffer. This PR clarifies that this is a requirement for implementations of the trait, but that callers have to expect a buggy yet safe implementation failing to do so, especially if unchecked accesses to the buffer are done afterwards.
I fell into this trap recently, and when I noticed, I looked at the docs again and had the feeling that I might not have been the first one to miss this.
The same issue of trusting the return value of `read` was also present in std itself for about 2.5 years and only fixed recently, see #80895.
I hope that clarifying the docs might help others to avoid this issue.
Reuse `std::sys::unsupported::pipe` on `hermit`
Pipes are not supported on `hermit` and `hermit/pipe.rs` is identical to `unsupported/pipe.rs`. This PR reduces duplication between the two by doing the following on `hermit`:
```rust
#[path = "../unsupported/pipe.rs"]
pub mod pipe;
```