Condvar: implement wait_timeout for targets without threads
This always falls back to sleeping since there is no way to notify a condvar on a target without threads.
Even on a target that has no threads the following code is a legitimate use case:
```rust
use std::sync::{Condvar, Mutex};
use std::time::Duration;
fn main() {
let cv = Condvar::new();
let mutex = Mutex::new(());
let mut guard = mutex.lock().unwrap();
cv.notify_one();
let res;
(guard, res) = cv.wait_timeout(guard, Duration::from_secs(3)).unwrap();
assert!(res.timed_out());
}
```
Impl String::into_chars
Tracking issue - https://github.com/rust-lang/rust/issues/133125
r? `@programmerjake` `@kennytm` `@Amanieu`
This refers to https://github.com/rust-lang/libs-team/issues/268
Before adding tests and creating a tracking issue, I'd like to reach a consensus on the implementation direction and two questions:
1. Whether we'd add a `String::into_char_indices` method also?
2. See inline comment.
This renames variables named `str` to other names, to make sure `str`
always refers to a type.
It's confusing to read code where `str` (or another standard type name)
is used as an identifier. It also produces misleading syntax
highlighting.
[generic_assert] Constify methods used by the formatting system
cc #44838
Starts the "constification" of all the elements required to allow the execution of the formatting system in constant environments.
```rust
const _: () = { panic!("{:?}", 1i32); };
```
Further stuff is blocked by #133999.
Add support for wasm exception handling to Emscripten target
This is a draft because we need some additional setting for the Emscripten target to select between the old exception handling and the new exception handling. I don't know how to add a setting like that, would appreciate advice from Rust folks. We could maybe choose to use the new exception handling if `Ctarget-feature=+exception-handling` is passed? I tried this but I get errors from llvm so I'm not doing it right.
Add doc aliases for `libm` and IEEE names
Searching "fma" in the Rust documentation returns results for `intrinsics::fma*`, but does not point to the user-facing `mul_add`. Add aliases for `fma*` and the IEEE operation name `fusedMultiplyAdd`. Add the IEEE name to `sqrt` as well, `squareRoot`.
do not in-place-iterate over flatmap/flatten
The implementation is unsound when a partially consumed iterator has some elements buffered in the front/back parts and cloning the Iterator removes the capacity from the backing vec::IntoIter.
This is a fix for #135103 that removes the specialization trait impls without removing some supporting parts. I've kept it small so it can be easily backported. I'll either remove the remaining parts or think of a way to recover the optimization in a separate PR.
Add UWP (msvc) target support page
- Added Platform Support page for `x86_64-uwp-windows-msvc`, `i686-uwp-windows-msvc`, `thumbv7a-uwp-windows-msvc` and `aarch64-uwp-windows-msvc`
- Adding myself as a maintainer
- Removing the ticks for `thumbv7a-pc-windows-msvc` and `thumbv7a-uwp-windows-msvc` as they do not currently build due to #134565 and https://github.com/rust-lang/backtrace-rs/pull/685
- Fixed a few minor issues to let most of the UWP targets compile
- Happy new year to all!
r? jieyouxu
Searching "fma" in the Rust documentation returns results for
`intrinsics::fma*`, but does not point to the user-facing `mul_add`. Add
aliases for `fma*` and the IEEE operation name `fusedMultiplyAdd`. Add
the IEEE name to `sqrt` as well, `squareRoot`.
Fixes
```
Checking stage0 library artifacts {alloc, core, panic_abort, panic_unwind, proc_macro, std, sysroot, test, unwind} (x86_64-unknown-linux-gnu)
warning: profile package spec `adler` in profile `release` did not match any packages
Did you mean `adler2`?
```
The implementation is unsound when a partially consumed iterator has
some elements buffered in the front/back parts and cloning the Iterator
removes the capacity from the backing vec::IntoIter.
Bump backtrace to 0.3.75
I prefer when we can ship the same version of backtrace on crates.io, and this will be the next published version.
Compare: https://github.com/rust-lang/backtrace-rs/compare/4d7906b...0.3.75
Mostly internal-to-backtrace changes, plus a tiny code size win.
r? `@ghost`
std: sync to dep versions of backtrace
Minor versions from backtrace desynced with std (they still differs in patch numbers, but still better):
4d7906bb24/Cargo.toml (L44-L48)
There is hidden bug here, let's see if CI can find it.
cc `@workingjubilee`
turn rustc_box into an intrinsic
I am not entirely sure why this was made a special magic attribute, but an intrinsic seems like a more natural way to add magic expressions to the language.
more concrete source url of std docs [V2]
r? jhpratt
since you have reivewed https://github.com/rust-lang/rust/pull/134193
> If someone is looking to contribute, they will want the repository as a whole, not the lib.rs for std.
Now the repository url is reserved, I just add another concrete url as an example, to help people finding target page more quickly&easily.
Move some things to `std::sync::poison` and reexport them in `std::sync`
Tracking issue: #134646
r? `@tgross35`
I've used `sync_poison_mod` feature flag instead, because `sync_poison` had already been used back in 1.2.
try-job: x86_64-msvc
Try to write the panic message with a single `write_all` call
This writes the panic message to a buffer before writing to stderr. This allows it to be printed with a single `write_all` call, preventing it from being interleaved with other outputs. It also adds newlines before and after the message ensuring that only the panic message will have its own lines.
Before:
```
thread 'thread 'thread 'thread 'thread '<unnamed>thread 'thread 'thread 'thread '<unnamed><unnamed>thread '<unnamed>' panicked at ' panicked at <unnamed><unnamed><unnamed><unnamed><unnamed>' panicked at <unnamed>' panicked at src\heap.rssrc\heap.rs'
panicked at ' panicked at ' panicked at ' panicked at ' panicked at src\heap.rs' panicked at src\heap.rs::src\heap.rssrc\heap.rssrc\heap.rssrc\heap.rssrc\heap.rs:src\heap.rs:455455:::::455:455::455455455455455:455:99:::::9:9:
:
999:
999:
assertion failed: size <= (*queue).block_size:
:
assertion failed: size <= (*queue).block_size:
assertion failed: size <= (*queue).block_size:
:
:
assertion failed: size <= (*queue).block_sizeassertion failed: size <= (*queue).block_sizeassertion failed: size <= (*queue).block_size
assertion failed: size <= (*queue).block_size
assertion failed: size <= (*queue).block_sizeassertion failed: size <= (*queue).block_sizeerror: process didn't exit successfully: `target\debug\direct_test.exe` (exit code: 0xc0000409, STATUS_STACK_BUFFER_OVERRUN)
```
After:
```
thread '<unnamed>' panicked at src\heap.rs:455:9:
assertion failed: size <= (*queue).block_size
thread '<unnamed>' panicked at src\heap.rs:455:9:
assertion failed: size <= (*queue).block_size
thread '<unnamed>' panicked at src\heap.rs:455:9:
assertion failed: size <= (*queue).block_size
error: process didn't exit successfully: `target\debug\direct_test.exe` (exit code: 0xc0000409, STATUS_STACK_BUFFER_OVERRUN)
```
---
try-jobs: x86_64-gnu-llvm-18
Avoid use of LFS64 symbols on Emscripten
Since Emscripten uses musl libc internally.
Non-functional change: all LFS64 symbols were aliased to their non-LFS64 counterparts in rust-lang/libc@7c952dceaa.
Since Emscripten uses musl libc internally.
Non-functional change: all LFS64 symbols were aliased to their non-LFS64
counterparts in rust-lang/libc@7c952dceaa.
char to_digit: avoid unnecessary casts to u64
Hello,
in the `char::to_digit` method there are a few `as u64` casts that are not strictly necessary.
I assume that the reason behind these casts is to avoid possible overflows in the `+ 10` add.
This PR removes the aforementioned casts, avoiding the overflow issue by slightly modifying the ASCII letter to int mapping.
Thanks,
Happy new year.
Tidy up bigint multiplication methods
This tidies up the library version of the bigint multiplication methods after the addition of the intrinsics in #133663. It follows [this summary](https://github.com/rust-lang/rust/issues/85532#issuecomment-2403442775) of what's desired for these methods.
Note that, if `2H = N`, then `uH::MAX * uH::MAX + uH::MAX + uH::MAX` is `uN::MAX`, and that we can effectively add two "carry" values without overflowing.
For ease of terminology, the "low-order" or "least significant" or "wrapping" half of multiplication will be called the low part, and the "high-order" or "most significant" or "overflowing" half of multiplication will be called the high part. In all cases, the return convention is `(low, high)` and left unchanged by this PR, to be litigated later.
## API Changes
The original API:
```rust
impl uN {
// computes self * rhs
pub const fn widening_mul(self, rhs: uN) -> (uN, uN);
// computes self * rhs + carry
pub const fn carrying_mul(self, rhs: uN, carry: uN) -> (uN, uN);
}
```
The added API:
```rust
impl uN {
// computes self * rhs + carry1 + carry2
pub const fn carrying2_mul(self, rhs: uN, carry: uN, add: uN) -> (uN, uN);
}
impl iN {
// note that the low part is unsigned
pub const fn widening_mul(self, rhs: iN) -> (uN, iN);
pub const fn carrying_mul(self, rhs: iN, carry: iN) -> (uN, iN);
pub const fn carrying_mul_add(self, rhs: iN, carry: iN, add: iN) -> (uN, iN);
}
```
Additionally, a naive implementation has been added for `u128` and `i128` since there are no double-wide types for those. Eventually, an intrinsic will be added to make these more efficient, but rather than doing this all at once, the library changes are added first.
## Justifications for API
The unsigned parts are done to ensure consistency with overflowing addition: for a two's complement integer, you want to have unsigned overflow semantics for all parts of the integer except the highest one. This is because overflow for unsigned integers happens on the highest bit (from `MAX` to zero), whereas overflow for signed integers happens on the second highest bit (from `MAX` to `MIN`). Since the sign information only matters in the highest part, we use unsigned overflow for everything but that part.
There is still discussion on the merits of signed bigint *addition* methods, since getting the behaviour right is very subtle, but at least for signed bigint *multiplication*, the sign of the operands does make a difference. So, it feels appropriate that at least until we've nailed down the final API, there should be an option to do signed versions of these methods.
Additionally, while it's unclear whether we need all three versions of bigint multiplication (widening, carrying-1, and carrying-2), since it's possible to have up to two carries without overflow, there should at least be a method to allow that. We could potentially only offer the carry-2 method and expect that adding zero carries afterword will optimise correctly, but again, this can be litigated before stabilisation.
## Note on documentation
While a lot of care was put into the documentation for the `widening_mul` and `carrying_mul` methods on unsigned integers, I have not taken this same care for `carrying_mul_add` or the signed versions. While I have updated the doc tests to be more appropriate, there will likely be many documentation changes done before stabilisation.
## Note on tests
Alongside this change, I've added several tests to ensure that these methods work as expected. These are alongside the codegen tests for the intrinsics.
