Upgrade elsa to the newest version.
This was locked to 1.7.1 because of an error in the elsa release process that has since been fixed. Upgrading has the advantage that the elsa code runs properly in miri, at least with tree borrows.
This was spawned from https://github.com/rust-lang/rust/issues/135870#issuecomment-2612470540
Mark `std::fmt::from_fn` as `#[must_use]`
While working on #135494 I managed to shoot my own foot a few times by forgetting to actually use the result of `fmt::from_fn`, so I think a `#[must_use]` could be appropriate!
Didn't have a good message to put in the attr so left it blank, still unstable so we can come back to it I guess?
cc #117729 (and a huge +1 for getting it stabilized, it's very useful IMHO)
bootstrap: add wrapper macros for `feature = "tracing"`-gated `tracing` macros
Follow-up to https://github.com/rust-lang/rust/pull/136091#discussion_r1930219425.
- Add wrapper macros for `error!`, `warn!`, `info!`, `debug!` and `trace!`, which `cfg(feature = "tracing")`-gates the underlying `tracing` macros. They expand to nothing if `"tracing"` feature is not enabled.
- This is not done for `span!` or `event!` because they can return span guards, and you can't really wrap that.
- This is also not possible for `tracing::instrument` attribute proc-macro unless you use another attribute proc-macro to wrap that.
It's not *great*, because `tracing::instrument` and `tracing::{span,event}` can't be wrapped this way.
Can test locally with:
```bash
$ BOOTSTRAP_TRACING=bootstrap=TRACE ./x check src/bootstrap/
```
r? ``@onur-ozkan`` (or reroll)
cg_llvm: Replace some DIBuilder wrappers with LLVM-C API bindings (part 1)
Part of #134001, follow-up to #136326, extracted from #134009.
This PR performs an arbitrary subset of the LLVM-C binding migrations from #134009, which should make it less tedious to review. The remaining migrations can occur in one or more subsequent PRs.
rustdoc: clean up a bunch of ts-expected-error declarations in main
This mostly consists of handling potentially-null input and adding more global functions to the list of globals.
Follow-up for #136161
#[contracts::requires(...)] + #[contracts::ensures(...)]
cc https://github.com/rust-lang/rust/issues/128044
Updated contract support: attribute syntax for preconditions and postconditions, implemented via a series of desugarings that culminates in:
1. a compile-time flag (`-Z contract-checks`) that, similar to `-Z ub-checks`, attempts to ensure that the decision of enabling/disabling contract checks is delayed until the end user program is compiled,
2. invocations of lang-items that handle invoking the precondition, building a checker for the post-condition, and invoking that post-condition checker at the return sites for the function, and
3. intrinsics for the actual evaluation of pre- and post-condition predicates that third-party verification tools can intercept and reinterpret for their own purposes (e.g. creating shims of behavior that abstract away the function body and replace it solely with the pre- and post-conditions).
Known issues:
* My original intent, as described in the MCP (https://github.com/rust-lang/compiler-team/issues/759) was to have a rustc-prefixed attribute namespace (like rustc_contracts::requires). But I could not get things working when I tried to do rewriting via a rustc-prefixed builtin attribute-macro. So for now it is called `contracts::requires`.
* Our attribute macro machinery does not provide direct support for attribute arguments that are parsed like rust expressions. I spent some time trying to add that (e.g. something that would parse the attribute arguments as an AST while treating the remainder of the items as a token-tree), but its too big a lift for me to undertake. So instead I hacked in something approximating that goal, by semi-trivially desugaring the token-tree attribute contents into internal AST constucts. This may be too fragile for the long-term.
* (In particular, it *definitely* breaks when you try to add a contract to a function like this: `fn foo1(x: i32) -> S<{ 23 }> { ... }`, because its token-tree based search for where to inject the internal AST constructs cannot immediately see that the `{ 23 }` is within a generics list. I think we can live for this for the short-term, i.e. land the work, and continue working on it while in parallel adding a new attribute variant that takes a token-tree attribute alongside an AST annotation, which would completely resolve the issue here.)
* the *intent* of `-Z contract-checks` is that it behaves like `-Z ub-checks`, in that we do not prematurely commit to including or excluding the contract evaluation in upstream crates (most notably, `core` and `std`). But the current test suite does not actually *check* that this is the case. Ideally the test suite would be extended with a multi-crate test that explores the matrix of enabling/disabling contracts on both the upstream lib and final ("leaf") bin crates.
librustdoc: create a helper for separating elements of an iterator instead of implementing it multiple times
This implements something similar to [`Itertools::format`](https://docs.rs/itertools/latest/itertools/trait.Itertools.html#method.format), but on `Fn`s returning iterators instead of directly on iterators, to allow implementing `Display` without the use of a `Cell` (to handle the possibility of `fmt` being called multiple times while receiving `&self`).
~This is WIP, I just want to get a perf run first to see if the regression I saw in #135494 is fixed~
This was originally part of #135494 , but originally caused a perf regression that was since fixed:
7d5ae1863a/src/librustdoc/html/format.rs (L507)
Shard AllocMap Lock
This improves performance on many-seed parallel (-Zthreads=32) miri executions from managing to use ~8 cores to using 27-28 cores, which is about the same as what I see with the data structure proposed in https://github.com/rust-lang/rust/pull/136105 - I haven't analyzed but I suspect the sharding might actually work out better if we commonly insert "densely" since sharding would split the cache lines and the OnceVec packs locks close together. Of course, we could do something similar with the bitset lock too.
Either way, this seems like a very reasonable starting point that solves the problem ~equally well on what I can test locally.
r? `@RalfJung`
mir_build: Rename `thir::cx::Cx` to `ThirBuildCx` and remove `UserAnnotatedTyHelpers`
A combination of two loosely-related tweaks that would otherwise conflict with each other:
- `Cx` is a pretty unhelpful type name, especially when jumping between THIR-building and MIR-building while trying to make changes to THIR data structures.
- The `UserAnnotatedTyHelpers` trait doesn't appear to provide any benefit over a simple helper function, and its `tcx()` method is currently completely unnecessary.
No functional change.
Remove unnecessary layout assertions for object-safe receivers
The soundness of `DispatchFromDyn` relies on the fact that, like all other built-in marker-like layout traits (e.g. `Sized`, `CoerceUnsized`), the guarantees that they enforce in *generic* code via traits will result in assumptions that we can rely on in codegen.
Specifically, `DispatchFromDyn` ensures that we end up with a receiver that is a valid pointer type, and its implementation validity recursively ensures that the ABI of that pointer type upholds the `Scalar` or `ScalarPair` representation for sized and unsized pointees, respectively.
The check that this layout guarantee holds for arbitrary, possibly generic receiver types that also may exist in possibly impossible-to-instantiate where clauses is overkill IMO, and leads to several ICEs due to the fact that computing layouts before monomorphization is going to be fallible at best.
This PR removes the check altogether, since it just exists as a sanity check from very long ago, 6f2a161b1b.
Fixes#125810Fixes#90110
This PR is an alternative to #136195. cc `@adetaylor.` I didn't realize in that PR that the layout checks that were being modified were simply *sanity checks*, rather than being actually necessary for soundness.
Report generic mismatches when calling bodyless trait functions
Don't know if there's an open issue for this. Just happened to notice this when working in that area.
The awkward extra spans added to the diagnostics of some tests (e.g. `trait-with-missing-associated-type-restriction`) is consistent with what happens for normal functions. Should probably be removed since that span doesn't seem to note anything useful.
First and third commit are both cleanups removing some unnecessary work. Second commit has the actual fix.
fixes#135124
Fix a couple NLL TLS spans
Some NLL TLS tests show incorrect spans for the end of function. It seems that the `TerminatorKind::Return` source info span can sometimes point at the single character after the end of the function.
Completely changing the span where the terminator is built also changes a bunch of diagnostics: small functions have more code shown unrelated to the errors at hand, wrapping symbols appear and weird-looking arrows point to the end of function, etc. So it seems this is somehow unexpectedly relied upon in making diagnostics look better and their heuristics.
So I just changed it where it matters for these few tests: the diagnostics specialized to conflict errors with thread locals.
r? `@matthewjasper`
Allow using named consts in pattern types
This required a refactoring first: I had to stop using `hir::Pat`in `hir::TyKind::Pat` and instead create a separate `TyPat` that has `ConstArg` for range ends instead of `PatExpr`. Within the type system we should be using `ConstArg` for all constants, as otherwise we'd be maintaining two separate const systems that could diverge. The big advantage of this PR is that we now inherit all the rules from const generics and don't have a separate system. While this makes things harder for users (const generic rules wrt what is allowed in those consts), it also means we don't accidentally allow some things like referring to assoc consts or doing math on generic consts.
Rollup of 5 pull requests
Successful merges:
- #134777 (Enable more tests on Windows)
- #135621 (Move some std tests to integration tests)
- #135844 ( Add new tool for dumping feature status based on tidy )
- #136167 (Implement unstable `new_range` feature)
- #136334 (Extract `core::ffi` primitives to a separate (internal) module)
Failed merges:
- #136201 (Removed dependency on the field-offset crate, alternate approach)
r? `@ghost`
`@rustbot` modify labels: rollup
Add `cast_signed` and `cast_unsigned` methods for `NonZero` types
Requested in https://github.com/rust-lang/rust/issues/125882 .
Note that this keeps the same names as the methods currently present on other
integer types. If we want to rename them, we can rename them all at the same
time.
Fix last compare-mode false negatives in tests
This PR is a continuation of #136310 and fixes the last remaining cases of false negatives when running tests under a compare-mode.
With these normalizations, all the compare-mode failures in `next-solver` (and `polonius`) should now be real, actual differences in diagnostics.
Extract `core::ffi` primitives to a separate (internal) module
### Introduce library/core/src/ffi/primitives.rs
The regex preprocessing for PR #133944 would be more robust if the relevant types from core/src/ffi/mod.rs were first moved to library/core/src/ffi/primitives.rs, then there isn't a need to deal with traits / c_str / va_list / whatever might wind up in that module in the future
r? `@tgross35`
Implement unstable `new_range` feature
Switches `a..b`, `a..`, and `a..=b` to resolve to the new range types.
For rust-lang/rfcs#3550
Tracking issue #123741
also adds the re-export that was missed in the original implementation of `new_range_api`
Move some std tests to integration tests
Unit tests directly inside of standard library crates require a very fragile way of building that is hard to reproduce outside of bootstrap.
Follow up to https://github.com/rust-lang/rust/pull/133859
Enable more tests on Windows
As part of the discussion of https://github.com/rust-lang/compiler-team/issues/822 on Zulip, it was mentioned that problems with the i686-pc-windows-gnu target may have resulted in tests being disabled on Windows.
So in this PR, I've ripped out all our `//@ ignore-windows` directives, then re-added all the ones that are definitely required based on the outcome of try-builds, and in some cases I've improved the justification or tightened the directives to `//@ ignore-msvc` or ignoring specific targets.
Display of integers without raw pointers and without overflowing_literals
The benchmarks as is measure formatting speed of literals. The first commit `black_box`-es input to simulate runtime speed instead.
The second commit replaces `unsafe` pointer optimizations with plain array indices. The performance is equivalent on Apple M1. Needs peer review on Intel.
Happy to do the 128-bit version too if such change is welcome.
- Add wrapper macros for `error!`, `warn!`, `info!`, `debug!` and
`trace!`, which `cfg(feature = "tracing")`-gates the underlying
`tracing` macros.
- This is not done for `span!` or `event!` because they can return span
guards, and you can't really wrap that.
- This is also not possible for `tracing::instrument` attribute
proc-macro unless you use another attribute proc-macro to wrap that.
Rollup of 6 pull requests
Successful merges:
- #134807 (fix(rustdoc): always use a channel when linking to doc.rust-lang.org)
- #134814 (Add `kl` and `widekl` target features, and the feature gate)
- #135836 (bootstrap: only build `crt{begin,end}.o` when compiling to MUSL)
- #136022 (Port ui/simd tests to use the intrinsic macro)
- #136309 (set rustc dylib on manually constructed rustc command)
- #136462 (mir_build: Simplify `lower_pattern_range_endpoint`)
r? `@ghost`
`@rustbot` modify labels: rollup
mir_build: Simplify `lower_pattern_range_endpoint`
By accumulating ascriptions and inline-consts in separate vectors, we can streamline some previously-tricky code for dealing with range patterns.
bootstrap: only build `crt{begin,end}.o` when compiling to MUSL
only MUSL needs those objects and trying to compile them to other targets, e.g. Windows or macOS, will produce C compilation errors
check the target before shelling out to the C compiler and tweak `make_run` to skip the actual C compilation when the target is not MUSL
fixes#135782
see the linked issue for additional context
Add `kl` and `widekl` target features, and the feature gate
This is an effort towards #134813. This PR adds the target-features and the feature gate to `rustc`
<!--
```@rustbot``` label O-x86_64 O-x86_32 A-target-feature
r? compiler
-->
fix(rustdoc): always use a channel when linking to doc.rust-lang.org
Closes#131971
I manually checked the resulting links
One issue is that this will create `nightly/...` links in places that formerly linked to stable, is that ok ? (the `slice` and `array` links in the search help notably)
