collect all Fuchsia bindings into the `fuchsia` module
The Fuchsia bindings are currently spread out across multiple modules in `sys/pal/unix` leading to unnecessary duplication. This PR moves all of these definitions into `sys::pal::unix::fuchsia` and additionally:
* deduplicates the definitions
* makes the error names consistent
* marks `zx_thread_self` and `zx_clock_get_monotonic` as safe extern functions
* removes unused items (there's no need to maintain these bindings if we're not going to use them)
* removes the documentation for the definitions (contributors should always consult the platform documentation, duplicating that here is just an extra maintenance burden)
`@rustbot` ping fuchsia
support duplicate entries in the opaque_type_storage
Necessary for the new solver as we may unify keys when eagerly resolving for canonical queries. See the relevant comment when instantiating query responses:
```rust
// We eagerly resolve inference variables when computing the query response.
// This can cause previously distinct opaque type keys to now be structurally equal.
//
// To handle this, we store any duplicate entries in a separate list to check them
// at the end of typeck/borrowck. We could alternatively eagerly equate the hidden
// types here. However, doing so is difficult as it may result in nested goals and
// any errors may make it harder to track the control flow for diagnostics.
if let Some(prev) = prev {
self.delegate.add_duplicate_opaque_type(key, prev, self.origin_span);
}
```
This will be far more relevant with #140497.
r? `@compiler-errors`
Comment on `Rc` abort-guard strategy without naming unrelated fn
`wrapped_add` is used, not `checked_add`, so avoid mentioning specific fn calls that may vary slightly based on "whatever produces the best code" and focus on things that will remain constant into the future.
Move `in_external_macro` to `SyntaxContext`
There are a few places in clippy where spans are passed solely to use the context, but we can't pass just the context around because of this function.
Stabilize proc_macro::Span::{file, local_file}.
Stabilizes this part of https://github.com/rust-lang/rust/issues/54725:
```rust
impl Span {
pub fn file(&self) -> String; // Mapped/artificial file name, for display purposes.
pub fn local_file(&self) -> Option<PathBuf>; // Real file name as it exists on the local file system.
}
```
See also the naming discussion in https://github.com/rust-lang/rust/issues/139903
Rollup of 4 pull requests
Successful merges:
- #136183 (Update iterator.rs to use arrays by value)
- #139966 (coverage: Only merge adjacent coverage spans)
- #140692 (Rename `graph::implementation::Graph` to `LinkedGraph`)
- #140703 (Handle PR not found in post-merge workflow)
r? `@ghost`
`@rustbot` modify labels: rollup
Rename `graph::implementation::Graph` to `LinkedGraph`
One of the more confusing parts of the `rustc_data_structures::graph` module is this mysteriously-named “Graph” type, which turns out to be an older standalone graph implementation that predates the traits used by the rest of the graph module.
This graph type is still used in a couple of places (for reporting certain lifetime errors, and by certain debugging/test-only checks of the query dependency graph), but hasn't had much attention in years.
This PR renames that old graph type from `implementation::Graph` to `linked_graph::LinkedGraph` to give it a more distinct identity (and make existing uses easier to find), and adds some notes to gently discourage any further use in new code.
No functional change.
coverage: Only merge adjacent coverage spans
For a long time, coverage instrumentation has automatically “merged” spans with the same control-flow into a smaller number of larger spans, even when the spans being merged are not overlapping or adjacent. This causes any source text between the original spans to be included in the merged span, which is then associated with an execution count when shown in coverage reports.
That approach causes a number of problems:
- The intervening source text can contain all sorts of things that shouldn't really be marked as executable code (e.g. nested items, parts of macro invocations, long comments). In some cases we have complicated workarounds (e.g. bucketing to avoid merging spans across nested items), but in other cases there isn't much we can do.
- Merging can have aesthetically weird effects, such as including unbalanced parentheses, because the merging process doesn't really understand what it's doing at a source code level.
- It generally leads to an accumulation of piled-on heuristics and special cases that give decent-looking results, but are fiendishly difficult to modify or replace.
Therefore, this PR aims to abolish the merging of non-adjacent coverage spans.
The big tradeoff here is that the resulting coverage metadata (embedded in the instrumented binary) tends to become larger, because the overall number of distinct spans has increased. That's unfortunate, but I see it as the inevitable cost of cleaning up the messes and inaccuracies that were caused by the old approach. And the resulting spans do tend to be more accurate to the program's actual control-flow.
---
The `.coverage` snapshot changes give an indication of how this PR will affect user-visible coverage reports. In many cases the changes to reporting are minor or even nonexistent, despite substantial changes to the metadata (as indicated by `.cov-map` snapshots).
---
try-job: aarch64-gnu
Rollup of 4 pull requests
Successful merges:
- #140135 (Unify sidebar buttons to use the same image)
- #140632 (add a test for issue rust-lang/rust#81317)
- #140658 (`deref_patterns`: let string and byte string literal patterns peel references and smart pointers before matching)
- #140681 (Don't ignore compiler stderr in `lib-defaults.rs`)
r? `@ghost`
`@rustbot` modify labels: rollup
`deref_patterns`: let string and byte string literal patterns peel references and smart pointers before matching
This follows up on #140028. Together, they allow using string and byte string literal patterns to match on smart pointers when `deref_patterns` is enabled. In particular, string literals can now match on `String`, subsuming the functionality of the `string_deref_patterns` feature.
More generally, this works by letting literals peel references (and smart pointers) before matching, similar to most other patterns, providing an answer to #44849. Though it's only partially implemented at this point: this doesn't yet let named const patterns peel before matching. The peeling logic is general enough to support named consts, but the typing rules for named const patterns would need adjustments to feel consistent (e.g. arrays would need rules to be usable as slices, and `const STR: &'static str` wouldn't be able to match on a `String` unless a rule was added to let it be used where a `str` is expected, similar to what #140028 did for literals).
This also allows string and byte string patterns to match on mutable references, following up on https://github.com/rust-lang/rust/pull/140028#discussion_r2053927512. Rather than forward the mutability of the scrutinee to literal patterns, I've opted to peel `&mut`s from the scrutinee. From a design point of view, this makes the behavior consistent with what would be expected from deref coercions using the methodology in the next paragraph. From a diagnostics point of view, this avoids labeling string and byte string patterns as "mutable references", which I think could be confusing. See [`byte-string-type-errors.rs`](https://github.com/rust-lang/rust/compare/master...dianne:rust:lit-deref-pats-p2?expand=1#diff-4a0dd9b164b67c706751f3c0b5762ddab08bcef05a91972beb0190c6c1cd3706) for how the diagnostics look.
At a high level, the peeling logic implemented here tries to mimic how deref coercions work for expressions: we peel references (and smart pointers) from the scrutinee until the pattern can match against it, and no more. This is primarily tested by [`const-pats-do-not-mislead-inference.rs`](https://github.com/rust-lang/rust/compare/master...dianne:rust:lit-deref-pats-p2?expand=1#diff-19afc05b8aae9a30fe4a3a8c0bc2ab2c56b58755a45cdf5c12be0d5e83c4739d). To illustrate the connection, I wasn't sure if this made sense to include in the test file, but I've translated those tests to make sure they give the same inference results as deref coercions: [(playground)](https://play.rust-lang.org/?version=stable&mode=debug&edition=2024&gist=1869744cb9cdfed71a686990aadf9fe1). In each case, a reference to the scrutinee is coerced to have the type of the pattern (under a reference).
Tracking issue for deref patterns: #87121
r? `@oli-obk`
cc `@Nadrieril`
Be a bit more relaxed about not yet constrained infer vars in closure upvar analysis
See the writeup in `tests/ui/closures/opaque-upvar.rs`.
TL;DR is that this has to do with the fact that the recursive revealing uses, which have not yet been constrained from the defining use by the time that closure upvar inference is performed, remain as infer vars during upvar analysis. We don't really care, though, since anywhere we structurally match on a type in upvar analysis, we already call `structurally_resolve_type` right before `.kind()`, which would emit a true ambiguity error.
Fixes https://github.com/rust-lang/trait-system-refactor-initiative/issues/197
r? lcnr
Clean rustdoc tests folder
We were starting to have way too many tests in the `tests/rustdoc/` folder so I moved some of them in sub-folders. We now have less than 300 tests at the "top level" so I guess it's good enough for now.
So this PR just moves tests in sub-folders and that's pretty much it. 😃
r? ``@notriddle``
Fix RustAnalyzer discovery of rustc's `stable_mir` crate
This fixes issues with RustAnalyzer not finding `stable_mir` crate since RA discovery traverses the dependency graph of `rustc_driver` crate.
This change also aligns with the long term architecture plan for these crates, since we are moving towards having stable_mir depend on rustc_smir and not the other way around. See [this doc](https://hackmd.io/jBRkZLqAQL2EVgwIIeNMHg) for more details.
I believe a similar function will come handy eventually for `stable_mir` users, but I'm keeping it as part of `rustc_internal` since its current format initializes the StableMir context and requires `TyCtxt`.
Finally, I added the `rustc_internal` module re-export under a feature since the APIs from this module shall not be stabilized.
std: get rid of `sys_common::process`
Move the public `CommandEnvs` into the `process` module (and make it a wrapper type for an internal iterator type) and everything else into `sys::process` as per #117276.
Something went wrong with a force push, so I can't reopen#139020. This is unchanged from that PR, apart from a rebase.
r? ```@thomcc```
coverage-dump: Resolve global file IDs to filenames
The coverage-dump tool, used by coverage tests, currently includes “global file ID” numbers in its dump output.
This PR adds support for parsing coverage filename information from LLVM assembly `.ll` files, and resolving those file IDs to the corresponding filename, for inclusion in dump output.
This makes dump output more informative, especially for test cases involving multiple files, and will be important for testing expansion region support in the future.
---
The bootstrap changes don't necessarily have to land at the same time (e.g. they could be deferred to after the stage0 redesign if requested), but I would prefer to land them now if possible.
Consistent trait bounds for ExtractIf Debug impls
Closes#137654. Refer to that issue for a table of the **4** different impl signatures we previously had in the standard library for Debug impls of various ExtractIf iterator types.
The one we are standardizing on is the one so far only used by `alloc::collections::linked_list::ExtractIf`, which is _no_ `F: Debug` bound, _no_ `F: FnMut` bound, only `T: Debug` bound.
This PR applies the following signature changes:
```diff
/* alloc::collections::btree_map */
pub struct ExtractIf<'a, K, V, F, A = Global>
where
- F: 'a + FnMut(&K, &mut V) -> bool,
Allocator + Clone,
impl Debug for ExtractIf<'a, K, V, F,
+ A,
>
where
K: Debug,
V: Debug,
- F: FnMut(&K, &mut V) -> bool,
+ A: Allocator + Clone,
```
```diff
/* alloc::collections::btree_set */
pub struct ExtractIf<'a, T, F, A = Global>
where
- T: 'a,
- F: 'a + FnMut(&T) -> bool,
Allocator + Clone,
impl Debug for ExtractIf<'a, T, F, A>
where
T: Debug,
- F: FnMut(&T) -> bool,
A: Allocator + Clone,
```
```diff
/* alloc::collections::linked_list */
impl Debug for ExtractIf<'a, T, F,
+ A,
>
where
T: Debug,
+ A: Allocator,
```
```diff
/* alloc::vec */
impl Debug for ExtractIf<'a, T, F, A>
where
T: Debug,
- F: Debug,
A: Allocator,
- A: Debug,
```
```diff
/* std::collections::hash_map */
pub struct ExtractIf<'a, K, V, F>
where
- F: FnMut(&K, &mut V) -> bool,
impl Debug for ExtractIf<'a, K, V, F>
where
+ K: Debug,
+ V: Debug,
- F: FnMut(&K, &mut V) -> bool,
```
```diff
/* std::collections::hash_set */
pub struct ExtractIf<'a, T, F>
where
- F: FnMut(&T) -> bool,
impl Debug for ExtractIf<'a, T, F>
where
+ T: Debug,
- F: FnMut(&T) -> bool,
```
I have made the following changes to bring these types into better alignment with one another.
- Delete `F: Debug` bounds. These are especially problematic because Rust closures do not come with a Debug impl, rendering the impl useless.
- Delete `A: Debug` bounds. Allocator parameters are unstable for now, but in the future this would become an API commitment that we do not debug-print a representation of the allocator when printing an iterator.
- Delete `F: FnMut` bounds. Requires `hashbrown` PR: https://github.com/rust-lang/hashbrown/pull/616. **API commitment:** we commit to not doing RefCell voodoo inside ExtractIf to have some way for its Debug impl (which takes &self) to call a FnMut closure, if this is even possible.
- Add `T: Debug` bounds (or `K`/`V`), even on Debug impls that do not currently make use of them, but might in the future. **Breaking change.** Must backport into Rust 1.87 (current beta) or do a de-stabilization PR in beta to delay those types by one release.
- Render using `debug_struct` + `finish_non_exhaustive`, instead of `debug_tuple`.
- Do not render the _entire_ underlying collection.
- Show a "peek" field indicating the current position of the iterator.
Fix `-Zremap-path-scope` rmeta handling
This PR fixes the conditional remapping (`-Zremap-path-scope`) of rmeta file paths ~~by using the `debuginfo` scope~~ by conditionally embedding the local path in addition to the remapped path.
Fixes https://github.com/rust-lang/rust/issues/139217
