Fix bootstrap.py uname error
The x.py script fails with `ValueError: too many values to unpack (expected 3)` when uname -smp gives more than 3 words
The error I got:
```
❯ ./x check
Traceback (most recent call last):
File "/data1/edgar/rust/x.py", line 50, in <module>
bootstrap.main()
File "/data1/edgar/rust/src/bootstrap/bootstrap.py", line 1113, in main
bootstrap(args)
File "/data1/edgar/rust/src/bootstrap/bootstrap.py", line 1070, in bootstrap
build = RustBuild(config_toml, args)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^
File "/data1/edgar/rust/src/bootstrap/bootstrap.py", line 505, in __init__
self.build = args.build or self.build_triple()
^^^^^^^^^^^^^^^^^^^
File "/data1/edgar/rust/src/bootstrap/bootstrap.py", line 976, in build_triple
return config or default_build_triple(self.verbose)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
File "/data1/edgar/rust/src/bootstrap/bootstrap.py", line 259, in default_build_triple
kernel, cputype, processor = uname.decode(default_encoding).split()
^^^^^^^^^^^^^^^^^^^^^^^^^^
ValueError: too many values to unpack (expected 3)
```
This is because
```
❯ uname -smp
Linux x86_64 AMD Ryzen 7 5800X 8-Core Processor
```
Returns more than 3 space separated words.
Allow to have `-` in rustdoc-json test file name
I extracted this commit from https://github.com/rust-lang/rust/pull/113574.
When I added the test, it kept saying that the JSON file couldn't be found. After investigating for a while, I discovered that we were expecting files to always use `_`, which is quite bad. So I added support for `-` in file names.
r? ``@notriddle``
Test simd-wide-sum for codegen error
This adds the necessary test infrastructure to "build-pass" codegen tests, for the purpose of doing that for a single revision of a codegen test. When mir-opts are tested, the output may vary from the usual, and maybe for positive reasons... but we don't necessarily want to output such bad LLVMIR that LLVM starts crashing on it.
Currently when enabling MIR opts at higher levels this LLVMIR is still emitted, but it was previously disabled for getting in mir-opt's way and as this new revision without `// [mir-opt3]build-pass` would make it more likely to, I would like to not see the testing for the actual results regress again just because it was bundled with an ICE check as well.
This fixes https://github.com/rust-lang/rust/issues/98016
Update cargo
10 commits in 45782b6b8afd1da042d45c2daeec9c0744f72cc7..694a579566a9a1482b20aff8a68f0e4edd99bd28
2023-07-05 16:54:51 +0000 to 2023-07-11 22:28:29 +0000
- fix(embedded): Always generate valid package names (rust-lang/cargo#12349)
- fix(embedded): Error on unsupported commands (rust-lang/cargo#12350)
- chore(ci): Automatically test new packages by using `--workspace` (rust-lang/cargo#12342)
- contrib docs: Add some more detail about how publishing works (rust-lang/cargo#12344)
- docs: Put cargo-add change under nightly (rust-lang/cargo#12343)
- Minor: Use "number" instead of "digit" when explaining Cargo's use of semver (rust-lang/cargo#12340)
- Update criterion (rust-lang/cargo#12338)
- Add profile strip to config docs. (rust-lang/cargo#12337)
- update re: multiple versions that differ only in the metadata tag (rust-lang/cargo#12335)
- doc: state `PackageId`/`SourceId` string is opaque (rust-lang/cargo#12313)
r? ``@ghost``
Make Placeholder, GeneratorWitness*, Infer and Error unreachable on SMIR rustc_ty_to_ty
Let's remove these todos to not confuse ``@ericmarkmartin`` if they pick some conversion up.
r? ``@oli-obk``
Implement selection for `Unsize` for better coercion behavior
In order for much of coercion to succeed, we need to be able to deal with partial ambiguity of `Unsize` traits during selection. However, I pessimistically implemented selection in the new trait solver to just bail out with ambiguity if it was a built-in impl:
9227ff28af/compiler/rustc_trait_selection/src/solve/eval_ctxt/select.rs (L126)
This implements a proper "rematch" procedure for dealing with built-in `Unsize` goals, so that even if the goal is ambiguous, we are able to get nested obligations which are used in the coercion selection-like loop:
9227ff28af/compiler/rustc_hir_typeck/src/coercion.rs (L702)
Second commit just moves a `resolve_vars_if_possible` call to fix a bug where we weren't detecting a trait upcasting to occur.
r? ``@lcnr``
Ignore flaky clippy tests.
These tests are frequently failing due to an issue in ui_test. ui_test doesn't appear to have a blanket ignore instruction that I could find, so I just approximated it with ignoring both 32 and 64 bit.
Fixes#113585
(re-)tighten sourceinfo span of adjustments in MIR
Diagnostics rely on the spans of MIR statements being (approximately) correct in order to give suggestions relative to that span (i.e. `shrink_to_hi` and `shrink_to_lo`).
I discovered that we're *intentionally* lowering THIR exprs with their parent expr's span if they come from adjustments that are due to a parent expression. While I understand why that may be desirable to demonstrate the relationship of an adjustment and the expression that requires it, it leads to
1. very verbose borrowck output
2. incorrect spans for suggestions
Some diagnostics get around that by giving suggestions relative to other spans we've collected during MIR lowering, such as the span of the method's identifier (e.g. `name` in `.name()`), but this doesn't work too well when things come from desugaring.
I assume it also has lead to numerous tweaks and complications to diagnostics code down the road, which this PR doesn't necessarily aim to fix but may open the gates to fixing later... The last three commits are simplifications due to the fact that we can assume that the move span actually points to what is being moved (and a test).
This regressed in #89110, which was debated somewhat in #90286. cc `@Aaron1011` who originally made this change.
r? diagnostics
Fixes#113547Fixes#111016
miri: protect Move() function arguments during the call
This gives `Move` operands a meaning specific to function calls:
- for the duration of the call, the place the operand comes from is protected, making all read and write accesses insta-UB.
- the contents of that place are reset to `Uninit`, so looking at them again after the function returns, we cannot observe their contents
Turns out we can replace the existing "retag return place" hack with the exact same sort of protection on the return place, which is nicely symmetric.
Fixes https://github.com/rust-lang/rust/issues/112564
Fixes https://github.com/rust-lang/miri/issues/2927
This starts with a Miri rustc-push, since we'd otherwise conflict with a PR that recently landed in Miri.
(The "miri tree borrows" commit is an unrelated cleanup I noticed while doing the PR. I can remove it if you prefer.)
r? `@oli-obk`
style-guide: Fix chain example to match rustfmt behavior
The style guide gave an example of breaking a multi-line chain element
and all subsequent elements to a new line, but that same example and the
accompanying text also had several chain items stacked on the first
line. rustfmt doesn't do this, except when the rule saying to combine
```
shrt
.y()
```
into
```
shrt.y()
```
applies.
This is a bugfix to match rustfmt behavior, so it's not a breaking change, and
it just needs a ``@rust-lang/style`` reviewer to r+.
This was not the correct fix. The problem was two-fold:
- `download-rustc` didn't respect `llvm.assertions`
- `rust-dev` was missing a bump to `download-ci-llvm-stamp`
The first is fixed in this PR and the latter was fixed a while ago. Revert this change to avoid breaking `rpath = false`.
Introduce `trait DebugWithInfcx` to debug format types with universe info
Seeing universes of infer vars is valuable for debugging but currently we have no way of easily debug formatting a type with the universes of all the infer vars shown. In the future I hope to augment the new solver's proof tree output with a `DebugWithInfcx` impl so that it can show universes but I left that out of this PR as it would be non trivial and this is already large and complex enough.
The goal here is to make the various abstractions taking `T: Debug` able to use the codepath for printing out universes, that way we can do `debug!("{:?}", my_x)` and have `my_x` have universes shown, same for the `write!` macro. It's not possible to put the `Infcx: InferCtxtLike<I>` into the formatter argument to `Debug::fmt` so it has to go into the self ty. For this we introduce the type `OptWithInfcx<I: Interner, Infcx: InferCtxtLike<I>, T>` which has the data `T` optionally coupled with the infcx (more on why it's optional later).
Because of coherence/orphan rules it's not possible to write the impl `Debug for OptWithInfcx<..., MyType>` when `OptWithInfcx` is in a upstream crate. This necessitates a blanket impl in the crate defining `OptWithInfcx` like so: `impl<T: DebugWithInfcx> Debug for OptWithInfcx<..., T>`. It is not intended for people to manually call `DebugWithInfcx::fmt`, the `Debug` impl for `OptWithInfcx` should be preferred.
The infcx has to be optional in `OptWithInfcx` as otherwise we would end up with a large amount of code duplication. Almost all types that want to be used with `OptWithInfcx` do not themselves need access to the infcx so if we were to not optional we would end up with large `Debug` and `DebugWithInfcx` impls that were practically identical other than that when formatting their fields we wrap the field in `OptWithInfcx` instead of formatting it alone.
The only types that need access to the infcx themselves are ty/const/region infer vars, everything else is implemented by having the `Debug` impl defer to `OptWithInfcx` with no infcx available. The `DebugWithInfcx` impl is pretty much just the standard `Debug` impl except that instead of recursively formatting fields with `write!(f, "{x:?}")` we must do `write!(f, "{:?}", opt_infcx.wrap(x))`. This is some pretty rough boilerplate but I could not think of an alternative unfortunately.
`OptWithInfcx::wrap` is an eager `Option::map` because 99% of callsites were discarding the existing data in `OptWithInfcx` and did not need lazy evaluation.
A trait `InferCtxtLike` was added instead of using `InferCtxt<'tcx>` as we need to implement `DebugWithInfcx` for types living in `rustc_type_ir` which are generic over an interner and do not have access to `InferCtxt` since it lives in `rustc_infer`. Additionally I suspect that adding universe info to new solver proof tree output will require an implementation of `InferCtxtLike` for something that is not an `InferCtxt` although this is not the primary motivaton.
---
To summarize:
- There is a type `OptWithInfcx` which bundles some data optionally with an infcx with allows us to pass an infcx into a `Debug` impl. It's optional instead of being there unconditionally so that we can share code for `Debug` and `DebugWithInfcx` impls that don't care about whether there is an infcx available but have fields that might care.
- There is a trait `DebugWithInfcx` which allows downstream crates to add impls of the form `Debug for OptWithInfcx<...>` which would normally be forbidden by orphan rules/coherence.
- There is a trait `InferCtxtLike` to allow us to implement `DebugWithInfcx` for types that live in `rustc_type_ir`
This allows debug formatting various `ty::*` structures with universes shown by using the `Debug` impl for `OptWithInfcx::new(ty, infcx)`
---
This PR does not add `DebugWithInfcx` impls to absolutely _everything_ that should realistically have them, for example you cannot use `OptWithInfcx<Obligation<Predicate>>`. I am leaving this to a future PR to do so as it would likely be a lot more work to do.
Rollup of 4 pull requests
Successful merges:
- #112717 (Implement a few more rvalue translation to smir)
- #113310 (Don't suggest `impl Trait` in path position)
- #113497 (Support explicit 32-bit MIPS ABI for the synthetic object)
- #113560 (Lint against misplaced where-clauses on associated types in traits)
r? `@ghost`
`@rustbot` modify labels: rollup
Lint against misplaced where-clauses on associated types in traits
Extends the scope of the lint `deprecated_where_clause_location` (#89122) from associated types in impls to associated types in any location (impl or trait). This is only relevant for `#![feature(associated_type_defaults)]`. Previously we didn't warn on the following code for example:
```rs
#![feature(associated_type_defaults)]
trait Trait { type Assoc where u32: Copy = (); }
```
Personally I would've preferred to emit a *hard* error here instead of a lint warning since the feature is unstable but unfortunately we are constrained by back compat as associated type defaults won't necessarily trigger the feature-gate error if they are inside of a macro call (since they use a post-expansion feature-gate due to historical reasons, see also #66004).
I've renamed and moved related preexisting tests: 1. They test AST validation passes not the parser & thus shouldn't live in `parser/` (historical reasons?). 2. One test file was named after type aliases even though it tests assoc tys.
`@rustbot` label A-lint