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Rollup of 8 pull requests #115651
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Rollup of 8 pull requests #115651
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`TyVid` already uses `newtype_index`.
Closes rust-lang#82038 It was fixed by b8e5ab2, a wide-reaching obligation tracking improvement. This commit adds a test case.
…r=WaffleLapkin MCP661: Move wasm32-wasi-preview1-threads target to Tier 2 rust-lang/compiler-team#661 >A tier 2 target must have value to people other than its maintainers. (It may still be a niche target, but it must not be exclusively useful for an inherently closed group.) The feature is already implemented in [wasi-sdk(](https://github.com/WebAssembly/wasi-sdk) (C toolchain for WASM), and four different WASM runtimes([Wasmtime](https://github.com/bytecodealliance/wasmtime), [WAMR](https://github.com/bytecodealliance/wasm-micro-runtime), [Wasmer](https://github.com/wasmerio/wasmer), [toywasm](https://github.com/yamt/toywasm)) are compatible with it. >A tier 2 target must have a designated team of developers (the "target maintainers") available to consult on target-specific build-breaking issues, or if necessary to develop target-specific language or library implementation details. This team must have at least 2 developers. >The target maintainers should not only fix target-specific issues, but should use any such issue as an opportunity to educate the Rust community about portability to their target, and enhance documentation of the target. We already have a team of 4 developers. See [src/doc/rustc/src/platform-support/wasm32-wasi-preview1-threads.md](https://github.com/rust-lang/rust/blob/master/src/doc/rustc/src/platform-support/wasm32-wasi-preview1-threads.md). The documentation is being updated in this PR as the first occurrence. >The target must not place undue burden on Rust developers not specifically concerned with that target. Rust developers are expected to not gratuitously break a tier 2 target, but are not expected to become experts in every tier 2 target, and are not expected to provide target-specific implementations for every tier 2 target. It doesn't as it’s built on top of existing wasm32-wasi tier-2 target and it only extends stdlib by implementing std:: thread::spawn/join. > The target must provide documentation for the Rust community explaining how to build for the target using cross-compilation, and explaining how to run tests for the target. If at all possible, this documentation should show how to run Rust programs and tests for the target using emulation, to allow anyone to do so. If the target cannot be feasibly emulated, the documentation should explain how to obtain and work with physical hardware, cloud systems, or equivalent. For build and running tests see *Building Rust programs* and *Testing* in [src/doc/rustc/src/platform-support/wasm32-wasi-preview1-threads.md](https://github.com/rust-lang/rust/blob/master/src/doc/rustc/src/platform-support/wasm32-wasi-preview1-threads.md). Only manual test running is supported at the moment with some tweaks in the test runner codebase. > The target must document its baseline expectations for the features or versions of CPUs, operating systems, libraries, runtime environments, and similar. See *Platform requirements* in [src/doc/rustc/src/platform-support/wasm32-wasi-preview1-threads.md](https://github.com/rust-lang/rust/blob/master/src/doc/rustc/src/platform-support/wasm32-wasi-preview1-threads.md) > If introducing a new tier 2 or higher target that is identical to an existing Rust target except for the baseline expectations for the features or versions of CPUs, operating systems, libraries, runtime environments, and similar, then the proposed target must document to the satisfaction of the approving teams why the specific difference in baseline expectations provides sufficient value to justify a separate target. >Note that in some cases, based on the usage of existing targets within the Rust community, Rust developers or a target's maintainers may wish to modify the baseline expectations of a target, or split an existing target into multiple targets with different baseline expectations. A proposal to do so will be treated similarly to the analogous promotion, demotion, or removal of a target, according to this policy, with the same team approvals required. >For instance, if an OS version has become obsolete and unsupported, a target for that OS may raise its baseline expectations for OS version (treated as though removing a target corresponding to the older versions), or a target for that OS may split out support for older OS versions into a lower-tier target (treated as though demoting a target corresponding to the older versions, and requiring justification for a new target at a lower tier for the older OS versions). Justified in rust-lang/compiler-team#574 and I acknowledge these requirements and intend to ensure they are met. > Tier 2 targets must not leave any significant portions of core or the standard library unimplemented or stubbed out, unless they cannot possibly be supported on the target. >The right approach to handling a missing feature from a target may depend on whether the target seems likely to develop the feature in the future. In some cases, a target may be co-developed along with Rust support, and Rust may gain new features on the target as that target gains the capabilities to support those features. >As an exception, a target identical to an existing tier 1 target except for lower baseline expectations for the OS, CPU, or similar, may propose to qualify as tier 2 (but not higher) without support for std if the target will primarily be used in no_std applications, to reduce the support burden for the standard library. In this case, evaluation of the proposed target's value will take this limitation into account. It does not, as it’s built as an extension of the existing tier 2 target (wasm32-wasi). > The code generation backend for the target should not have deficiencies that invalidate Rust safety properties, as evaluated by the Rust compiler team. (This requirement does not apply to arbitrary security enhancements or mitigations provided by code generation backends, only to those properties needed to ensure safe Rust code cannot cause undefined behavior or other unsoundness.) If this requirement does not hold, the target must clearly and prominently document any such limitations as part of the target's entry in the target tier list, and ideally also via a failing test in the testsuite. The Rust compiler team must be satisfied with the balance between these limitations and the difficulty of implementing the necessary features. >For example, if Rust relies on a specific code generation feature to ensure that safe code cannot overflow the stack, the code generation for the target should support that feature. >If the Rust compiler introduces new safety properties (such as via new capabilities of a compiler backend), the Rust compiler team will determine if they consider those new safety properties a best-effort improvement for specific targets, or a required property for all Rust targets. In the latter case, the compiler team may require the maintainers of existing targets to either implement and confirm support for the property or update the target tier list with documentation of the missing property. Doesn't apply, the target re-uses existing backend and doesn't extend it > If the target supports C code, and the target has an interoperable calling convention for C code, the Rust target must support that C calling convention for the platform via extern "C". The C calling convention does not need to be the default Rust calling convention for the target, however. Target does not support C code >The target must build reliably in CI, for all components that Rust's CI considers mandatory. The target reliably builds in CI already https://github.com/rust-lang/rust/blob/master/src/ci/docker/host-x86_64/dist-various-2/Dockerfile#L143. >The approving teams may additionally require that a subset of tests pass in CI, such as enough to build a functional "hello world" program, ./x.py test --no-run, or equivalent "smoke tests". In particular, this requirement may apply if the target builds host tools, or if the tests in question provide substantial value via early detection of critical problems. The existing tier-2 target and this target as its extension [pass](rust-lang#112922 (comment)) for 14.5k+ tests/ui when tests are run manually(described in *Testing* in in [src/doc/rustc/src/platform-support/wasm32-wasi-preview1-threads.md](https://github.com/rust-lang/rust/blob/master/src/doc/rustc/src/platform-support/wasm32-wasi-preview1-threads.md). Can be tested in the CI as soon as the original target does. > Building the target in CI must not take substantially longer than the current slowest target in CI, and should not substantially raise the maintenance burden of the CI infrastructure. This requirement is subjective, to be evaluated by the infrastructure team, and will take the community importance of the target into account. It doesn’t as it only slightly extends standard library of the existing target > Tier 2 targets should, if at all possible, support cross-compiling. Tier 2 targets should not require using the target as the host for builds, even if the target supports host tools. N/a given as it only extends stdlib of the existing target. > In addition to the legal requirements for all targets (specified in the tier 3 requirements), because a tier 2 target typically involves the Rust project building and supplying various compiled binaries, incorporating the target and redistributing any resulting compiled binaries (e.g. built libraries, host tools if any) must not impose any onerous license requirements on any members of the Rust project, including infrastructure team members and those operating CI systems. This is a subjective requirement, to be evaluated by the approving teams. >As an exception to this, if the target's primary purpose is to build components for a Free and Open Source Software (FOSS) project licensed under "copyleft" terms (terms which require licensing other code under compatible FOSS terms), such as kernel modules or plugins, then the standard libraries for the target may potentially be subject to copyleft terms, as long as such terms are satisfied by Rust's existing practices of providing full corresponding source code. Note that anything added to the Rust repository itself must still use Rust's standard license terms. Requirement are met, no legal issues. > Tier 2 targets must not impose burden on the authors of pull requests, or other developers in the community, to ensure that tests pass for the target. In particular, do not post comments (automated or manual) on a PR that derail or suggest a block on the PR based on tests failing for the target. Do not send automated messages or notifications (via any medium, including via ````@)```` to a PR author or others involved with a PR regarding the PR breaking tests on a tier 2 target, unless they have opted into such messages. >Backlinks such as those generated by the issue/PR tracker when linking to an issue or PR are not considered a violation of this policy, within reason. However, such messages (even on a separate repository) must not generate notifications to anyone involved with a PR who has not requested such notifications. I acknowledge these requirements and intend to ensure they are met. > The target maintainers should regularly run the testsuite for the target, and should fix any test failures in a reasonably timely fashion. The tests are run manually every week by ````@g0djan```` now. While target has been in Tier 3, 2 issues(rust-lang#114608 and rust-lang#114610) have been raised. Both issues were addressed the same day and fixes has been merged by now. > All requirements for tier 3 apply. Target was initially accepted as a Tier 3 target in rust-lang#112922 .
…e-struct, r=notriddle rustdoc: Render private fields in tuple struct as `/* private fields */` Reopening of rust-lang#110552. All that was missing was a test for the different cases so I added it into the second commit. Description from the original PR: > I've gotten some feedback that the current rustdoc rendering of... > > ``` > struct HasPrivateFields(_); > ``` > > ...is confusing, and I agree with that feedback, especially compared to the field struct case: > > ``` > struct HasPrivateFields { /* private fields */ } > ``` > > So this PR makes it so that when all of the fields of a tuple variant are private, just render it with the `/* private fields */` comment. We can't *always* render it like that, for example when there's a mix of private and public fields. cc ```@jsha``` r? ```@notriddle```
…Lapkin Print the path of a return-position impl trait in trait when `return_type_notation` is enabled When we're printing a return-position impl trait in trait, we usually just print it like an opaque. This is *usually* fine, but can be confusing when using `return_type_notation`. Print the path of the method from where the RPITIT originates when this feature gate is enabled.
… r=oli-obk Don't suggest dereferencing to unsized type Rudimentary check that the self type is Sized. I don't really like any of this diagnostics code -- it's really messy and also really prone to false positives and negatives, but oh well. Fixes rust-lang#115569
…t-node, r=petrochenkov Lint node for `PRIVATE_BOUNDS`/`PRIVATE_INTERFACES` is the item which names the private type The HIR that the `PRIVATE_BOUNDS` lint should be attached to is the item that has the *bounds*, not the private type. This PR also aligns this behavior with the `EXPORTED_PRIVATE_DEPENDENCIES` lint, which also requires putting the `allow` on the item that names the private type. Fixes rust-lang#115475 r? petrochenkov
…-obk Use `newtype_index` for `IntVid` and `FloatVid`. `TyVid` already uses `newtype_index`.
`-Cllvm-args` usability improvement fixes: rust-lang#26338 fixes: rust-lang#115564 Two problems were found during playing with `-Cllvm-args` 1. When `llvm.link-shared` is set to `false` in `config.toml`, output of `rustc -C llvm-args='--help-list-hidden'` doesn't contain `--emit-dwarf-unwind` and `--emulated-tls`. When it is set to `true`, `rustc -C llvm-args='--help-list-hidden'` emits `--emit-dwarf-unwind`, but `--emulated-tls` is still missing. 2. Setting `-Cllvm-args=--emit-dwarf-unwind=always` doesn't take any effect, but `-Cllvm-args=-machine-outliner-reruns=3` does work. ### 1 Adding `RegisterCodeGenFlags` to register codegen flags fixed the first problem. `rustc -C llvm-args='--help-list-hidden'` emits full codegen flags including `--emit-dwarf-unwind` and `--emulated-tls`. ### 2 Constructing `TargetOptions` from `InitTargetOptionsFromCodeGenFlags` in `LLVMRustCreateTargetMachine` fixed the second problem. The `LLVMRustSetLLVMOptions` calls `ParseCommandLineOptions` which parses given `llvm-args`. For options like `machine-outliner-reruns`, it just works, since the codegen logic directly consumes the parsing result: [machine-outliner-reruns register](https://github.com/rust-lang/llvm-project/blob/0537f6354cffe546cbf47f6dc9c7f82e49e86cfb/llvm/lib/CodeGen/MachineOutliner.cpp#L114) [machine-outliner-reruns consumption](https://github.com/rust-lang/llvm-project/blob/0537f6354cffe546cbf47f6dc9c7f82e49e86cfb/llvm/lib/CodeGen/MachineOutliner.cpp#L1138) But for flags defined in `TargetOptions` and `MCTargetOptions` to take effect, constructing them with `InitTargetOptionsFromCodeGenFlags` is essential, or the parsing result is just not consumed. Similar patterns can be observed in [lli](https://github.com/rust-lang/llvm-project/blob/0537f6354cffe546cbf47f6dc9c7f82e49e86cfb/llvm/tools/llc/llc.cpp#L494), [llc](https://github.com/rust-lang/llvm-project/blob/0537f6354cffe546cbf47f6dc9c7f82e49e86cfb/llvm/tools/lli/lli.cpp#L517), etc.
…ler-errors diagnostics: add test case for trait bounds diagnostic Closes rust-lang#82038 It was fixed by rust-lang#89580, a wide-reaching obligation tracking improvement. This commit adds a test case.
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…llaumeGomez Rollup of 8 pull requests Successful merges: - rust-lang#115345 (MCP661: Move wasm32-wasi-preview1-threads target to Tier 2) - rust-lang#115604 (rustdoc: Render private fields in tuple struct as `/* private fields */`) - rust-lang#115624 (Print the path of a return-position impl trait in trait when `return_type_notation` is enabled) - rust-lang#115629 (Don't suggest dereferencing to unsized type) - rust-lang#115633 (Lint node for `PRIVATE_BOUNDS`/`PRIVATE_INTERFACES` is the item which names the private type) - rust-lang#115634 (Use `newtype_index` for `IntVid` and `FloatVid`.) - rust-lang#115638 (`-Cllvm-args` usability improvement) - rust-lang#115649 (diagnostics: add test case for trait bounds diagnostic) r? `@ghost` `@rustbot` modify labels: rollup
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…llaumeGomez Rollup of 8 pull requests Successful merges: - rust-lang#115345 (MCP661: Move wasm32-wasi-preview1-threads target to Tier 2) - rust-lang#115604 (rustdoc: Render private fields in tuple struct as `/* private fields */`) - rust-lang#115624 (Print the path of a return-position impl trait in trait when `return_type_notation` is enabled) - rust-lang#115629 (Don't suggest dereferencing to unsized type) - rust-lang#115633 (Lint node for `PRIVATE_BOUNDS`/`PRIVATE_INTERFACES` is the item which names the private type) - rust-lang#115634 (Use `newtype_index` for `IntVid` and `FloatVid`.) - rust-lang#115638 (`-Cllvm-args` usability improvement) - rust-lang#115649 (diagnostics: add test case for trait bounds diagnostic) r? `@ghost` `@rustbot` modify labels: rollup
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Successful merges:
/* private fields */
#115604 (rustdoc: Render private fields in tuple struct as/* private fields */
)return_type_notation
is enabled #115624 (Print the path of a return-position impl trait in trait whenreturn_type_notation
is enabled)PRIVATE_BOUNDS
/PRIVATE_INTERFACES
is the item which names the private type #115633 (Lint node forPRIVATE_BOUNDS
/PRIVATE_INTERFACES
is the item which names the private type)newtype_index
forIntVid
andFloatVid
. #115634 (Usenewtype_index
forIntVid
andFloatVid
.)-Cllvm-args
usability improvement #115638 (-Cllvm-args
usability improvement)r? @ghost
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