copy doc output files by format
This pr provides copying doc outputs by checking output format without removing output directory on each trigger.
Resolves#103785
Fix hang in where-clause suggestion with `predicate_can_apply`
Using `predicate_may_hold` during error reporting causes an evaluation overflow, which (because we use `evaluate_obligation_no_overflow`) then causes the predicate to need to be re-evaluated locally, which results in a hang.
... but since the "add a where clause" suggestion is best-effort, just throw any overflow errors. No need for 100% accuracy.
r? `@lcnr` who has been thinking about overflows... Let me know if you want more context about this issue, and as always, feel free to reassign.
Fixes#104225
optimize field ordering by grouping m*2^n-sized fields with equivalently aligned ones
```rust
use std::ptr::addr_of;
use std::mem;
struct Foo {
word: u32,
byte: u8,
ary: [u8; 4]
}
fn main() {
let foo: Foo = unsafe { mem::zeroed() };
println!("base: {:p}\nword: {:p}\nbyte: {:p}\nary: {:p}", &foo, addr_of!(foo.word), addr_of!(foo.byte), addr_of!(foo.ary));
}
```
prints
```
base: 0x7fffc1a8a668
word: 0x7fffc1a8a668
byte: 0x7fffc1a8a66c
ary: 0x7fffc1a8a66d
```
I.e. the `u8` in the middle causes the array to sit at an odd offset, which might prevent optimizations, especially on architectures where unaligned loads are costly.
Note that this will make field ordering niche-dependent, i.e. a `Bar<T>` with `T=char` and `T=u32` may result in different field order, this may break some code that makes invalid assumptions about `repr(Rust)` types.
Bump `fd-lock` in `bootstrap` again
Followup to https://github.com/rust-lang/rust/pull/103778
Sorry for the quick succession but this fixes one more building issue for Tier 3 `windows-gnullvm` that I have previously missed, and it would be nice to have it in the release.
Refactor must_use lint into two parts
Before, the lint did the checking for `must_use` and pretty printing the types in a special format in one pass, causing quite complex and untranslatable code.
Now the collection and printing is split in two. That should also make it easier to translate or extract the type pretty printing in the future.
Also fixes an integer overflow in the array length pluralization
calculation.
fixes#104352
Followup to https://github.com/rust-lang/rust/pull/103778
Sorry for the quick succession but this fixes one more building issue for Tier 3 `windows-gnullvm` that I have previously missed, and it would be nice to have it in the release.
rustdoc: remove no-op CSS `.popover::before / a.test-arrow { display: inline-block }`
Since this box is absolutely positioned, its display type is [blockified] anyway. We just need to make sure it isn't `display: none`.
[blockified]: https://www.w3.org/TR/css-display-3/#transformations
Add failing test for projections used as const generic
Based on the experiment done in https://github.com/rust-lang/rust/pull/104443, we realized it's currently not possible to support projections in const generics. More information about it in https://github.com/rust-lang/rust/pull/104443#discussion_r1029375633.
This PR adds the UI test in any case so we can gather data in order to work towards adding `TyAlias` into the ABI in the future.
r? ``@oli-obk``
Update Clippy
r? `@Manishearth`
Sorry for taking so long. There were so many blockers and so little time. This situation should be mitigated with #104007 in the future.
Only declare bindings for if-let guards once per arm
Currently, each candidate for a match arm uses separate locals for the bindings in the if-let guard, causing problems (#88015) when those branches converge in the arm body.
Fixes#88015 (🤞)
Check generics parity before collecting return-position `impl Trait`s in trait
The only thing is that this duplicates the error message for number of generics mismatch, but we already deduplicate that error message in Cargo. I could add a flag to delay the error if the reviewer cares.
Fixes#104281
Also drive-by adds a few comments to the `collect_trait_impl_trait_tys` method, and removes an unused argument from `compare_number_of_generics`.
Use clang for the UEFI targets
This fixes an issue where the C and asm sources built by compiler_builtins were being compiled as ELF objects instead of PE objects. This wasn't noticed before because it doesn't cause compiler_builtins or rustc to fail to build. You only see a failure when a program is built that references one of the symbols in an ELF object.
Compiling with clang fixes this because the cc crate converts the UEFI targets into Windows targets that clang understands, causing it to produce PE objects.
Also update compiler_builtins to 0.1.84 to pull in some necessary fixes for compiling the UEFI targets with clang.
Fixes https://github.com/rust-lang/rust/issues/104326
Rollup of 11 pull requests
Successful merges:
- #103396 (Pin::new_unchecked: discuss pinning closure captures)
- #104416 (Fix using `include_bytes` in pattern position)
- #104557 (Add a test case for async dyn* traits)
- #104559 (Split `MacArgs` in two.)
- #104597 (Probe + better error messsage for `need_migrate_deref_output_trait_object`)
- #104656 (Move tests)
- #104657 (Do not check transmute if has non region infer)
- #104663 (rustdoc: factor out common button CSS)
- #104666 (Migrate alias search result to CSS variables)
- #104674 (Make negative_impl and negative_impl_exists take the right types)
- #104692 (Update test's cfg-if dependency to 1.0)
Failed merges:
r? `@ghost`
`@rustbot` modify labels: rollup
Probe + better error messsage for `need_migrate_deref_output_trait_object`
1. Use `InferCtxt::probe` in `need_migrate_deref_output_trait_object` -- that normalization *could* technically do type inference as a side-effect, and this is a lint, so it should have no side-effects.
2. Return the trait-ref so we format the error message correctly. See the UI test change -- `(dyn A + 'static)` is not a trait.
Split `MacArgs` in two.
`MacArgs` is an enum with three variants: `Empty`, `Delimited`, and `Eq`. It's used in two ways:
- For representing attribute macro arguments (e.g. in `AttrItem`), where all three variants are used.
- For representing function-like macros (e.g. in `MacCall` and `MacroDef`), where only the `Delimited` variant is used.
In other words, `MacArgs` is used in two quite different places due to them having partial overlap. I find this makes the code hard to read. It also leads to various unreachable code paths, and allows invalid values (such as accidentally using `MacArgs::Empty` in a `MacCall`).
This commit splits `MacArgs` in two:
- `DelimArgs` is a new struct just for the "delimited arguments" case. It is now used in `MacCall` and `MacroDef`.
- `AttrArgs` is a renaming of the old `MacArgs` enum for the attribute macro case. Its `Delimited` variant now contains a `DelimArgs`.
Various other related things are renamed as well.
These changes make the code clearer, avoids several unreachable paths, and disallows the invalid values.
r? `@petrochenkov`
Add a test case for async dyn* traits
This adds a test case that approximates async functions in dyn traits using `dyn*`. The purpose is to have an example of where we are with `dyn*` and the goal of using it for dyn traits.
Issue #102425
r? `@compiler-errors`
`MacArgs` is an enum with three variants: `Empty`, `Delimited`, and `Eq`. It's
used in two ways:
- For representing attribute macro arguments (e.g. in `AttrItem`), where all
three variants are used.
- For representing function-like macros (e.g. in `MacCall` and `MacroDef`),
where only the `Delimited` variant is used.
In other words, `MacArgs` is used in two quite different places due to them
having partial overlap. I find this makes the code hard to read. It also leads
to various unreachable code paths, and allows invalid values (such as
accidentally using `MacArgs::Empty` in a `MacCall`).
This commit splits `MacArgs` in two:
- `DelimArgs` is a new struct just for the "delimited arguments" case. It is
now used in `MacCall` and `MacroDef`.
- `AttrArgs` is a renaming of the old `MacArgs` enum for the attribute macro
case. Its `Delimited` variant now contains a `DelimArgs`.
Various other related things are renamed as well.
These changes make the code clearer, avoids several unreachable paths, and
disallows the invalid values.
