instantiate higher ranked goals in candidate selection again
This reverts #119820 as that PR has a significant impact and breaks code which *feels like it should work*. The impact ended up being larger than we expected during the FCP and we've ended up with some ideas for how we can work around this issue in the next solver. This has been discussed in the previous high bandwidth t-types meeting: https://rust-lang.zulipchat.com/#narrow/stream/326132-t-types.2Fmeetings/topic/2024-07-09.20high.20bandwidth.20meeting.
We'll therefore keep this inconsistency between the two solvers for now and will have to deal with it before stabilizating the use of the new solver outside of coherence: https://github.com/rust-lang/trait-system-refactor-initiative/issues/120.
fixes#125194 after a beta-backport.
The pattern which is more widely used than expected and feels like it should work, especially without deep knowledge of the type system is
```rust
trait Trait<'a> {}
impl<'a, T> Trait<'a> for T {}
fn trait_bound<T: for<'a> Trait<'a>>() {}
// A function with a where-bound which is more restrictive than the impl.
fn function1<T: Trait<'static>>() {
// stable: ok
// with #119820: error as we prefer the where-bound over the impl
// with this PR: back to ok
trait_bound::<T>();
}
```
r? `@rust-lang/types`
This comment has two problems:
- It is very long, making the flow of the enclosing method hard to follow.
- It starts by talking about an `autoref` flag that hasn't existed since #59114.
This PR therefore replaces the long inline comment with a revised doc comment
on `bind_matched_candidate_for_guard`, and some shorter inline comments.
For readers who want more historical context, we also link to the PR that added
the old comment, and the PR that removed the `autoref` flag.
This commit does the following.
- Pulls the code out of `AttrTokenStream::to_token_trees` into a new
function `attrs_and_tokens_to_token_trees`.
- Simplifies `TokenStream::from_ast` by calling the new function. This
is nicer than the old way, which created a temporary
`AttrTokenStream` containing a single `AttrsTarget` (which required
some cloning) just to call `to_token_trees` on it. (It is good to
remove this use of `AttrsTarget` which isn't related to `cfg_attr`
expansion.)
The new condition is equivalent in practice, but it's much more obvious
that it would result in an empty range, because the condition lines up
with the contents of the iterator.
Update `f16`/`f128` FIXMEs that needed `(NEG_)INFINITY`
Just a small fix to the pattern matching tests now that we can. Also contains a small unrelated comment tweak.
More trait error reworking
More work on #127492, specifically those sub-bullets under "Move trait error reporting to `error_reporting::traits`". Stacked on top of #127493.
This does introduce new `TypeErrCtxt.*Ext` traits, but those will be deleted soon. Splitting this work into bite-sized pieces is the only way that it's gonna be feasible to both author and review ❤️
r? lcnr
Automatically taint when reporting errors from ItemCtxt
This isn't very robust yet, as you need to use `itemctxt.dcx()` instead of `tcx.dcx()` for it to take effect, but it's at least more convenient than sprinkling `set_tainted_by_errors` calls in individual places.
based on https://github.com/rust-lang/rust/pull/127357
r? `@fmease`
[Coverage][MCDC] Group mcdc tests and fix panic when generating mcdc code for inlined expressions.
### Changes
1. Group all mcdc tests to one directory.
2. Since mcdc instruments different mappings for boolean expressions with normal branch coverage as #125766 introduces, it would be better also trace branch coverage results in mcdc tests.
3. So far rustc does not call `CoverageInfoBuilderMethods::init_coverage` for inlined functions. As a result, it could panic if it tries to instrument mcdc statements for inlined functions due to uninitialized cond bitmaps. We can reproduce this issue by current nightly rustc and [the test](https://github.com/rust-lang/rust/pull/127234/files#diff-c81af6bf4869aa42f5c7334e3e86344475de362f673f54ce439ec75fcb5ac3e5) with flag `--release`. This patch fixes it.
This is adding a migration lint for the current (in the 2021 edition and previous)
to move expr to expr_2021 from expr
Co-Developed-by: Eric Holk
Signed-off-by: Vincenzo Palazzo <vincenzopalazzodev@gmail.com>
Fix regression in the MIR lowering of or-patterns
In https://github.com/rust-lang/rust/pull/126553 I made a silly indexing mistake and regressed the MIR lowering of or-patterns. This fixes it.
r? `@compiler-errors` because I'd like this to be merged quickly 🙏
Consolidate region error reporting in `rustc_infer`
More work on https://github.com/rust-lang/rust/issues/127492. Separate but important step, since I'm gonna likely pull everything else here into another module.
I don't think I'm confident whether `nice_region_error` should be a submodule of the new `rustc_infer::infer::error_reporting::region` module, so I left it alone for now.
r? lcnr
Move trait selection error reporting to its own top-level module
This effectively moves `rustc_trait_selection::traits::error_reporting` to `rustc_trait_selection::error_reporting::traits`. There are only a couple of actual changes to the code, like moving the `pretty_impl_header` fn out of the specialization module for privacy reasons.
This is quite pointless on its own, but having `error_reporting` as a top-level module in `rustc_trait_selection` is very important to make sure we have a meaningful file structure for when we move **type** error reporting (and region error reporting, with which it's incredibly entangled currently) into `rustc_trait_selection`. I've opened a tracking issue here: #127492
r? lcnr
Add Natvis visualiser and debuginfo tests for `f16`
To render `f16`s in debuggers on MSVC targets, this PR changes the compiler to output `f16`s as `struct f16 { bits: u16 }`, and includes a Natvis visualiser that manually converts the `f16`'s bits to a `float` which is can then be displayed by debuggers. `gdb`, `lldb` and `cdb` tests are also included for `f16` .
`f16`/`f128` MSVC debug info issue: #121837
Tracking issue: #116909
