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This commit does the following.
- Changes it from `Lrc<Box<dyn ToAttrTokenStream>>` to
`Lrc<LazyAttrTokenStreamInner>`.
- Reworks `LazyAttrTokenStreamImpl` as `LazyAttrTokenStreamInner`, which
is a two-variant enum.
- Removes the `ToAttrTokenStream` trait and the two impls of it.
The recursion limit must be increased in some crates otherwise rustdoc
aborts.
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implement or-patterns for pattern types
These are necessary to represent `NonZeroI32`, as the range for that is `..0 | 1..`. The `rustc_scalar_layout_range_*` attributes avoided this by just implementing wraparound and having a single `1..=-1` range effectively. See https://rust-lang.zulipchat.com/#narrow/channel/481660-t-lang.2Fpattern-types/topic/.60or.20pattern.60.20representation.20in.20type.20system/with/504217694 for some background discussion
cc https://github.com/rust-lang/rust/issues/123646
r? `@BoxyUwU`
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`DisambiguatorState` type
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allow deref patterns to move out of boxes
This adds a case to lower deref patterns on boxes using a built-in deref instead of a `Deref::deref` or `DerefMut::deref_mut` call: if `deref!(inner): Box<T>` is matching on place `place`, the inner pattern `inner` now matches on `*place` rather than a temporary. No longer needing to call a method also means it won't borrow the scrutinee in match arms. This allows for bindings in `inner` to move out of `*place`.
For comparison with box patterns, this uses the same MIR lowering but different THIR. Consequently, deref patterns on boxes are treated the same as any other deref patterns in match exhaustiveness analysis. Box patterns can't quite be implemented in terms of deref patterns until exhaustiveness checking for deref patterns is implemented (I'll open a PR for exhaustiveness soon!).
Tracking issue: #87121
r? ``@Nadrieril``
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Rollup of 7 pull requests
Successful merges:
- #140056 (Fix a wrong error message in 2024 edition)
- #140220 (Fix detection of main function if there are expressions around it)
- #140249 (Remove `weak` alias terminology)
- #140316 (Introduce `BoxMarker` to improve pretty-printing correctness)
- #140347 (ci: clean more disk space in codebuild)
- #140349 (ci: use aws codebuild for the `dist-x86_64-linux` job)
- #140379 (rustc-dev-guide subtree update)
r? `@ghost`
`@rustbot` modify labels: rollup
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Async drop codegen
Async drop implementation using templated coroutine for async drop glue generation.
Scopes changes to generate `async_drop_in_place()` awaits, when async droppable objects are out-of-scope in async context.
Implementation details:
https://github.com/azhogin/posts/blob/main/async-drop-impl.md
New fields in Drop terminator (drop & async_fut). Processing in codegen/miri must validate that those fields are empty (in full version async Drop terminator will be expanded at StateTransform pass or reverted to sync version). Changes in terminator visiting to consider possible new successor (drop field).
ResumedAfterDrop messages for panic when coroutine is resumed after it is started to be async drop'ed.
Lang item for generated coroutine for async function async_drop_in_place. `async fn async_drop_in_place<T>()::{{closure0}}`.
Scopes processing for generate async drop preparations. Async drop is a hidden Yield, so potentially async drops require the same dropline preparation as for Yield terminators.
Processing in StateTransform: async drops are expanded into yield-point. Generation of async drop of coroutine itself added.
Shims for AsyncDropGlueCtorShim, AsyncDropGlue and FutureDropPoll.
```rust
#[lang = "async_drop"]
pub trait AsyncDrop {
#[allow(async_fn_in_trait)]
async fn drop(self: Pin<&mut Self>);
}
impl Drop for Foo {
fn drop(&mut self) {
println!("Foo::drop({})", self.my_resource_handle);
}
}
impl AsyncDrop for Foo {
async fn drop(self: Pin<&mut Self>) {
println!("Foo::async drop({})", self.my_resource_handle);
}
}
```
First async drop glue implementation re-worked to use the same drop elaboration code as for sync drop.
`async_drop_in_place` changed to be `async fn`. So both `async_drop_in_place` ctor and produced coroutine have their lang items (`AsyncDropInPlace`/`AsyncDropInPlacePoll`) and shim instances (`AsyncDropGlueCtorShim`/`AsyncDropGlue`).
```
pub async unsafe fn async_drop_in_place<T: ?Sized>(_to_drop: *mut T) {
}
```
AsyncDropGlue shim generation uses `elaborate_drops::elaborate_drop` to produce drop ladder (in the similar way as for sync drop glue) and then `coroutine::StateTransform` to convert function into coroutine poll.
AsyncDropGlue coroutine's layout can't be calculated for generic T, it requires known final dropee type to be generated (in StateTransform). So, `templated coroutine` was introduced here (`templated_coroutine_layout(...)` etc).
Such approach overrides the first implementation using mixing language-level futures in https://github.com/rust-lang/rust/pull/121801.
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Remove `weak` alias terminology
I find the "weak" alias terminology to be quite confusing. It implies the existence of "strong" aliases (which do not exist) and I'm not really sure what about weak aliases is "weak". I much prefer "free alias" as the term. I think it's much more obvious what it means as "free function" is a well defined term that already exists in rust.
It's also a little confusing given "weak alias" is already a term in linker/codegen spaces which are part of the compiler too. Though I'm not particularly worried about that as it's usually very obvious if you're talking about the type system or not lol. I'm also currently trying to write documentation about aliases and it's somewhat awkward/confusing to be talking about *weak* aliases, when I'm not really sure what the basis for that as the term actually *is*.
I would also be happy to just find out there's a nice meaning behind calling them "weak" aliases :-)
r? `@oli-obk`
maybe we want a types MCP to decide on a specific naming here? or maybe we think its just too late to go back on this naming decision ^^'
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async_drop_in_place::{closure}, scoped async drop added.
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replace `GenericArg` with `Term` where applicable
r? types
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uwu :3
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norm nested aliases before evaluating the parent goal
see the explanation of the underlying issue in tests/ui/traits/next-solver/normalize/eager-norm-pre-normalizes-to.rs.
This is also the cause of https://github.com/rust-lang/trait-system-refactor-initiative/issues/184, fixing the overflow errors with the new solver. I did not add any tests based on it directly as relying on that behavior to cause recursion limit shenanigans feels fragile. Thanks `@Nadrieril` for minimizing the issue [on zulip](https://rust-lang.zulipchat.com/#narrow/channel/364551-t-types.2Ftrait-system-refactor/topic/typenum.20.602.20.2F.201.60.20overflow.20error/with/513993621).
r? `@compiler-errors`
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Make #![feature(let_chains)] bootstrap conditional in compiler/
Let chains have been stabilized recently in #132833, so we can remove the gating from our uses in the compiler (as the compiler uses edition 2024).
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This allows deref patterns to move out of boxes.
Implementation-wise, I've opted to put the information of whether a
deref pattern uses a built-in deref or a method call in the THIR. It'd
be a bit less code to check `.is_box()` everywhere, but I think this way
feels more robust (and we don't have a `mutability` field in the THIR
that we ignore when the smart pointer's a box). I'm not sure about the
naming (or using `ByRef`), though.
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Properly stall coroutine witnesses in new solver
TODO: write description
r? lcnr
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Fix error when an intra doc link is trying to resolve an empty associated item
Fixes https://github.com/rust-lang/rust/issues/140026.
Assigning ```@nnethercote``` since they're the one who wrote the initial change.
I updated rustdoc code instead of compiler's because I think it makes more sense that the caller ensures on their side that the name they're looking for isn't empty.
r? ```@nnethercote```
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deref patterns: implement implicit deref patterns
This implements implicit deref patterns (per https://hackmd.io/4qDDMcvyQ-GDB089IPcHGg#Implicit-deref-patterns) and adds tests and an unstable book chapter.
Best reviewed commit-by-commit. Overall there's a lot of additions, but a lot of that is tests, documentation, and simple(?) refactoring.
Tracking issue: #87121
r? ``@Nadrieril``
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Rename `LifetimeName` as `LifetimeKind`.
It's a much better name, more consistent with how we name such things.
Also rename `Lifetime::res` as `Lifetime::kind` to match. I suspect this field used to have the type `LifetimeRes` and then the type was changed but the field name remained the same.
r? ``@BoxyUwU``
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Since this uses `pat_adjustments`, I've also tweaked the documentation
to mention implicit deref patterns and made sure the pattern migration
diagnostic logic accounts for it. I'll adjust `ExprUseVisitor` in a
later commit and add some tests there for closure capture inference.
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Split `TypeFolder` and `FallibleTypeFolder` atwain
Right now there is a coherence problem with `TypeFolder` and `FallibleTypeFolder`. Namely, it's impossible to implement a `FallibleTypeFolder` that is generic over interner, b/c it has a *downstream* conflict with the blanket impl:
```
impl<I, F> FallibleTypeFolder<I> for F where F: TypeFolder<I> {}
```
Because downstream crates may implement `TypeFolder<SomeLocalInterner>` for the fallible type folder.
This PR removes the relationship between `FallibleTypeFolder` and `TypeFolder`; it leads to *modest* code duplication, but otherwise does not affect perf and really doesn't matter in general.
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It's a much better name, more consistent with how we name such things.
Also rename `Lifetime::res` as `Lifetime::kind` to match. I suspect this
field used to have the type `LifetimeRes` and then the type was changed
but the field name remained the same.
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Rollup of 17 pull requests
Successful merges:
- #138374 (Enable contracts for const functions)
- #138380 (ci: add runners for vanilla LLVM 20)
- #138393 (Allow const patterns of matches to contain pattern types)
- #139517 (std: sys: process: uefi: Use NULL stdin by default)
- #139554 (std: add Output::exit_ok)
- #139660 (compiletest: Add an experimental new executor to replace libtest)
- #139669 (Overhaul `AssocItem`)
- #139671 (Proc macro span API redesign: Replace proc_macro::SourceFile by Span::{file, local_file})
- #139750 (std/thread: Use default stack size from menuconfig for NuttX)
- #139772 (Remove `hir::Map`)
- #139785 (Let CStrings be either 1 or 2 byte aligned.)
- #139789 (do not unnecessarily leak auto traits in item bounds)
- #139791 (drop global where-bounds before merging candidates)
- #139798 (normalize: prefer `ParamEnv` over `AliasBound` candidates)
- #139822 (Fix: Map EOPNOTSUPP to ErrorKind::Unsupported on Unix)
- #139833 (Fix some HIR pretty-printing problems)
- #139836 (Basic tests of MPMC receiver cloning)
r? `@ghost`
`@rustbot` modify labels: rollup
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Remove `hir::Map`
A follow-up to https://github.com/rust-lang/rust/pull/139232.
r? `@Zalathar`
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Overhaul `AssocItem`
`AssocItem` has multiple fields that only make sense some of the time. E.g. the `name` can be empty if it's an RPITIT associated type. It's clearer and less error prone if these fields are moved to the relevant `kind` variants.
r? ``@fee1-dead``
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Rollup of 8 pull requests
Successful merges:
- #139745 (Avoid unused clones in `Cloned<I>` and `Copied<I>`)
- #139757 (opt-dist: use executable-extension for host llvm-profdata)
- #139778 (Add test for issue 34834)
- #139783 (Use `compiletest-ignore-dir` for bootstrap self-tests)
- #139797 (Allow (but don't require) `#[unsafe(naked)]` so that `compiler-builtins` can upgrade to it)
- #139799 (Specify `--print info=file` syntax in `--help`)
- #139811 (Use `newtype_index!`-generated types more idiomatically)
- #139813 (Miri subtree update)
r? `@ghost`
`@rustbot` modify labels: rollup
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To accurately reflect that RPITIT assoc items don't have a name. This
avoids the use of `kw::Empty` to mean "no name", which is error prone.
Helps with #137978.
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Because all the other similar methods are on `AssocItem`.
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From `hir::AssocItem`.
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Use `newtype_index!`-generated types more idiomatically
Continuation of sorts of #139674
Shouldn't affect anything, just makes some code simpler
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re-use `Sized` fast-path
There's an existing fast path for the `type_op_prove_predicate` predicate, checking for trivially `Sized` types, which can be re-used when evaluating obligations within queries. This should improve performance and was found to be beneficial in #137944.
r? types
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