Its original naming hides the fact that it's related to datalog
polonius, and bound to be deleted in the near future.
It also conflicts with the expected name for the actual NLL location
map, and prefixing it with its use will make the differentiation
possible.
"Elements" are `RegionElement`s. The dense location mapping was removed
from the element containers a while ago but didn't rename its use-sites.
Most of the old naming only used the mapping, and are better named
`location_map`.
arm: add unstable soft-float target feature
This has an actual usecase as mentioned [here](https://github.com/rust-lang/rust/issues/116344#issuecomment-2575324988), and with my recent ARM float ABI changes there shouldn't be any soundness concerns any more. We will reject enabling this feature on `hf` targets, but disabling it on non-`hf` targets is entirely fine -- the target feature refers to whether softfloat emulation is used for float instructions, and is independent of the ABI which we set separately via `llvm_floatabi`.
Cc ``@workingjubilee``
Convert typeck constraints in location-sensitive polonius
In this PR, we do a big chunk of the work of localizing regular outlives constraints.
The slightly annoying thing is handling effectful statements: usually the subset graph propagates loans at a single point between regions, and liveness propagates loans between points within a single region, but some statements have effects applied on exit.
This was also a problem before, in datalog polonius terms and Niko's solution at the time, this is about: the mid-point. The idea was to duplicate all MIR locations into two physical points, and orchestrate the effects with that. Somewhat easier to do, but double the CFG.
We've always believed we didn't _need_ midpoints in principle, as we can represent changes on exit as on happening entry to the successor, but there's some difficulty in tracking the position information at sufficient granularity through outlives relation (especially since we also have bidirectional edges and time-traveling now).
Now, that is surely what we should be doing in the future. In the mean time, I infer this from the kind of statement/terminator where an outlives constraint arose. It's not particularly complicated but some explanation will help clarify the code.
Assignments (in their various forms) are the quintessential example of these crossover cases: loans that would flow into the LHS would not be visible on entry to the point but on exit -- so we'll localize these edges to the successor. Let's look at a real-world example, involving invariance for bidirectional edges:
```rust
let mut _1: HashMap<i32, &'7 i32>;
let mut _3: &'9 mut HashMap<i32, &'10 i32>;
...
/* at bb1[3]: */ _3 = &'3 mut _1;
```
Here, typeck expectedly produces 3 outlives constraints today:
1. `'3 -> '9`
2. `'7 -> '10`
3. `'10 -> '7`
And we localize them like so,
1. `'3 -> '9` flows into the LHS and becomes: `3_bb1_3 -> 9_bb1_4`
2. `'7 -> '10` flows into the LHS and becomes: `7_bb1_3 -> 10_bb1_4`
3. `'10 -> '7` flows from the LHS and becomes: `10_bb1_4 -> 7_bb1_3` (time traveling 👌)
---
r? ``@jackh726``
To keep you entertained during the holidays I also threw in a couple of small changes removing cruft in the borrow checker.
We're actually getting there. The next PR will be the last one needed to get end-to-end tests working.
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.
Rollup of 6 pull requests
Successful merges:
- #133810 (remove unnecessary `eval_verify_bound`)
- #134745 (Normalize each signature input/output in `typeck_with_fallback` with its own span)
- #134989 (Lower Guard Patterns to HIR.)
- #135149 (Use a post-monomorphization typing env when mangling components that come from impls)
- #135171 (rustdoc: use stable paths as preferred canonical paths)
- #135200 (rustfmt: drop nightly-gating of the `--style-edition` flag registration)
r? `@ghost`
`@rustbot` modify labels: rollup
rustfmt: drop nightly-gating of the `--style-edition` flag registration
Follow-up to [Stabilize `style_edition = "2024"` in-tree #134929](https://github.com/rust-lang/rust/pull/134929).
#134929 un-nightly-gated the *read* of `--style-edition`, but didn't also un-nightly-gate the *registration*/*declaration* of the `--style-edition` flag itself. Reading `--style-edition` on a non-nightly channel (e.g. beta) will thus panic because `--style-edition` is never declared.
This PR also un-nightly-gates the registration. Not sure how to write a regression test for this, because this *requires* the non-nightly / beta channel. Though existing tests do fail (albeit indirectly).
Checking if this fixes the panic against beta in https://github.com/rust-lang/rust/pull/135197.
r? rustfmt
rustdoc: use stable paths as preferred canonical paths
This accomplishes something like 16a4ad7d7b, but with the `rustc_allowed_through_unstable_modules` attribute instead of the path length.
Fixes#131676
Use a post-monomorphization typing env when mangling components that come from impls
When mangling associated methods of impls, we were previously using the wrong param-env. Instead of using a fully monomorphized param-env like we usually do in codegen, we were taking the post-analysis param-env, and treating it as an early binder to *re-substitute* the impl args. I've pointed out the problematic old code in an inline comment.
This would give us param-envs with possibly trivial predicates that would prevent normalization via param-env shadowing.
In the example test linked below, `tests/ui/symbol-names/normalize-in-param-env.rs`, this happens when we mangle the impl `impl<P: Point2> MyFrom<P::S> for P` with the substitution `P = Vec2`. Because the where clause of the impl is `P: Point2`, which elaborates to `[P: Point2, P: Point, <P as Point>::S projects-to <P as Point2>::S2]` and the fact that `impl Point2 for Vec2` normalizes `Vec2::S2` to `Vec2::S`, this causes a cycle.
The proper fix here is to use a fully monomorphized param-env for the case where the impl is properly substituted.
Fixes#135143
While #134081 uncovered this bug for legacy symbol mangling, it was preexisting for v0 symbol mangling. This PR fixes both. The test requires a "hack" because we strip the args of the instance we're printing for legacy symbol mangling except for drop glue, so we box a closure to ensure we generate drop glue.
r? oli-obk
Normalize each signature input/output in `typeck_with_fallback` with its own span
Applies the same hack as #106582 but to the args in typeck. Greatly improves normalization error spans from a signature.
remove unnecessary `eval_verify_bound`
This does not impact any tests. I feel like any cases where this could useful should instead be fixed by a general improvement to `eval_verify_bound` to avoid having to promote this `TypeTest` in the first place 🤔
r? types cc ``@nikomatsakis``
Rollup of 9 pull requests
Successful merges:
- #135081 (bootstrap: Build jemalloc with support for 64K pages)
- #135174 ([AIX] Port test case run-make/reproducible-build )
- #135177 (llvm: Ignore error value that is always false)
- #135182 (Transmute from NonNull to pointer when elaborating a box deref (MCP807))
- #135187 (apply a workaround fix for the release roadblock)
- #135189 (Remove workaround from pull request template)
- #135193 (don't bless `proc_macro_deps.rs` unless it's necessary)
- #135198 (Avoid naming variables `str`)
- #135199 (Eliminate an unnecessary `Symbol::to_string`; use `as_str`)
r? `@ghost`
`@rustbot` modify labels: rollup
Avoid naming variables `str`
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.
don't bless `proc_macro_deps.rs` unless it's necessary
Running tidy with `--bless` flag is breaking the build cache as tidy updates mtime of `proc_macro_deps.rs` (https://github.com/rust-lang/rust/pull/134865) unconditionally and that leads cargo to recompile tidy.
This patch fixes that.
Remove workaround from pull request template
This PR removes the workaround (`\`) from our pull request template as triagebot/rustbot now ignores HTML blocks.
cf. https://github.com/rust-lang/triagebot/pull/1869
cc `@jieyouxu`
r? `@ehuss`
llvm: Ignore error value that is always false
See llvm/llvm-project#121851
For LLVM 20+, this function (`renameModuleForThinLTO`) has no return value. For prior versions of LLVM, this never failed, but had a signature which allowed an error value people were handling.
`@rustbot` label: +llvm-main
r? `@nikic`
Wait a moment before approving while the llvm-main infrastructure picks it up.
[AIX] Port test case run-make/reproducible-build
The test case `run-make/reproducible-build` verifies that two identical invocations of the compiler produce the same output by comparing the linker arguments, resulting binaries, and other artifacts. However, the AIX linker command includes an argument that specifies the file containing exported symbols, with a file path that contains a randomly generated substring to prevent collisions between different linking processes. Additionally, the AIX XCOFF file header includes a 4-byte timestamp. This PR replaces the random substring with a placeholder and nullifies the timestamp field in the XCOFF files for the comparisons.
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.
