`Nonterminal`-related cleanups
In #114647 I am trying to remove `Nonterminal`. It has a number of preliminary cleanups that are worth merging even if #114647 doesn't merge, so let's do them in this PR.
r? `@petrochenkov`
[RFC-3086] Restrict the parsing of `count`
Fix#111904
The original RFC didn't mention the possibility of using `${count(t,)}` and such thing isn't very semantically accurate which can lead to confusion.
Normalize before checking if local is freeze in `deduced_param_attrs`
Not normalizing the local type eagerly results in possibly exponential amounts of normalization happening downstream in `is_freeze_raw`.
Fixes#113372
Revert PR #114052 to fix invalid suggestion
This PR reverts https://github.com/rust-lang/rust/pull/114052 to fix the invalid suggestion produced by the PR.
Unfortunately the invalid suggestion cannot be improved from the current position where it's emitted since we lack enough information (is an assignment?, left or right?, ...) to be able to fix it here. Furthermore the previous wasn't wrong, just suboptimal, contrary to the current one which is just wrong.
Added a regression test and commented out some code instead of removing it so we can use it later.
Reopens https://github.com/rust-lang/rust/issues/114050
Fixes https://github.com/rust-lang/rust/issues/114925
Fix suggestion for attempting to define a string with single quotes
Currently attempting to compile `fn main() { let _ = '\\"'; }` will result in the following error message:
```
error: character literal may only contain one codepoint
--> src/main.rs:1:21
|
1 | fn main() { let _ = '\\"'; }
| ^^^^^
|
help: if you meant to write a `str` literal, use double quotes
|
1 | fn main() { let _ = "\\""; }
| ~~~~~
```
The suggestion is invalid as it fails to escape the `"`. This PR fixes the suggestion so that it now reads:
```
help: if you meant to write a `str` literal, use double quotes
|
1 | fn main() { let _ = "\\\""; }
| ~~~~~~
```
The relevant test is also updated to ensure that this does not regress in future.
Fix argument removal suggestion around macros
Fixes#112437.
Fixes#113866.
Helps with #114255.
The issue was that `span.find_ancestor_inside(outer)` could previously return a span with a different expansion context from `outer`.
This happens for example for the built-in macro `panic!`, which expands to another macro call of `panic_2021!` or `panic_2015!`. Because the call site of `panic_20xx!` has not associated source code, its span currently points to the call site of `panic!` instead.
Something similar also happens items that get desugared in AST->HIR lowering. For example, `for` loops get two spans: One "inner" span that has the `.desugaring_kind()` kind set to `DesugaringKind::ForLoop` and one "outer" span that does not. Similar to the macro situation, both of these spans point to the same source code, but have different expansion contexts.
This causes problems, because joining two spans with different expansion contexts will usually[^1] not actually join them together to avoid creating "spaghetti" spans that go from the macro definition to the macro call. For example, in the following snippet `full_span` might not actually contain the `adjusted_start` and `adjusted_end`. This caused the broken suggestion / debug ICE in the linked issues.
```rust
let adjusted_start = start.find_ancestor_inside(shared_ancestor);
let adjusted_end = end.find_ancestor_inside(shared_ancestor);
let full_span = adjusted_start.to(adjusted_end)
```
To fix the issue, this PR introduces a new method, `find_ancestor_inside_same_ctxt`, which combines the functionality of `find_ancestor_inside` and `find_ancestor_in_same_ctxt`: It finds an ancestor span that is contained within the parent *and* has the same syntax context, and is therefore safe to extend. This new method should probably be used everywhere, where the returned span is extended, but for now it is just used for the argument removal suggestion.
Additionally, this PR fixes a second issue where the function call itself is inside a macro but the arguments come from outside the macro. The test is added in the first commit to include stderr diff, so this is best reviewed commit by commit.
[^1]: If one expansion context is the root context and the other is not.
Don't add associated type bound for non-types
We had this fix for equality constraints (#99890), but for some reason not trait constraints 😅Fixes#114744
Cleaner assert_eq! & assert_ne! panic messages
This PR finishes refactoring of the assert messages per #94005. The panic message format change #112849 used to be part of this PR, but has been factored out and just merged. It might be better to keep both changes in the same release once FCP vote completes.
Modify panic message for `assert_eq!`, `assert_ne!`, the currently unstable `assert_matches!`, as well as the corresponding `debug_assert_*` macros.
```rust
assert_eq!(1 + 1, 3);
assert_eq!(1 + 1, 3, "my custom message value={}!", 42);
```
#### Old messages
```plain
thread 'main' panicked at $DIR/main.rs:6:5:
assertion failed: `(left == right)`
left: `2`,
right: `3`
```
```plain
thread 'main' panicked at $DIR/main.rs:6:5:
assertion failed: `(left == right)`
left: `2`,
right: `3`: my custom message value=42!
```
#### New messages
```plain
thread 'main' panicked at $DIR/main.rs:6:5:
assertion `left == right` failed
left: 2
right: 3
```
```plain
thread 'main' panicked at $DIR/main.rs:6:5:
assertion `left == right` failed: my custom message value=42!
left: 2
right: 3
```
History of fixing #94005
* #94016 was a lengthy PR that was abandoned
* #111030 was similar, but it stringified left and right arguments, and thus caused compile time performance issues, thus closed
* #112849 factored out the two-line formatting of all panic messages
Fixes#94005
r? `@m-ou-se`
Modify panic message for `assert_eq!`, `assert_ne!`, the currently unstable `assert_matches!`, as well as the corresponding `debug_assert_*` macros.
```rust
assert_eq!(1 + 1, 3);
assert_eq!(1 + 1, 3, "my custom message value={}!", 42);
```
```plain
thread 'main' panicked at $DIR/main.rs:6:5:
assertion failed: `(left == right)`
left: `2`,
right: `3`
```
```plain
thread 'main' panicked at $DIR/main.rs:6:5:
assertion failed: `(left == right)`
left: `2`,
right: `3`: my custom message value=42!
```
```plain
thread 'main' panicked at $DIR/main.rs:6:5:
assertion `left == right` failed
left: 2
right: 3
```
```plain
thread 'main' panicked at $DIR/main.rs:6:5:
assertion `left == right` failed: my custom message value=42!
left: 2
right: 3
```
This PR is a simpler subset of the #111030, but it does NOT stringify the original left and right source code assert expressions, thus should be faster to compile.
Point at return type when it influences non-first `match` arm
When encountering code like
```rust
fn foo() -> i32 {
match 0 {
1 => return 0,
2 => "",
_ => 1,
}
}
```
Point at the return type and not at the prior arm, as that arm has type `!` which isn't influencing the arm corresponding to arm `2`.
Fix#78124.
Deny `FnDef` in patterns
We can only see these via `const { .. }` patterns, which are unstable.
cc #76001 (tracking issue for inline const pats)
Fixes#114658Fixes#114659
Point out expectation even if we have `TypeError::RegionsInsufficientlyPolymorphic`
just a minor tweak, since saying "one type is more general than the other" kinda sucks if we don't actually point out two types.
Separate `consider_unsize_to_dyn_candidate` from other unsize candidates
Move the unsize candidate assembly *just for* `T -> dyn Trait` out of `assemble_candidates_via_self_ty` so that we only consider it once, instead of for every normalization step of the self ty. This makes sure that we don't assemble several candidates that are equal modulo normalization when we really don't care about normalizing the self type of an `T: Unsize<dyn Trait>` goal anyways.
Fixesrust-lang/trait-system-refactor-initiative#57
r? lcnr
Probe when assembling upcast candidates so they don't step on eachother's toes in new solver
Lack of a probe causes one candidate to disqualify the other due to inference side-effects.
r? lcnr
Upgrade std to gimli 0.28.0
Gimli 0.28 removed its `From<EndianSlice> for &[u8]` that was the root cause of #113238.
This dependency update mirrors rust-lang/backtrace-rs#557, but since that doesn't require any code changes in `backtrace`, we can also apply that right away for our nested `std/backtrace` feature.
Add test for unknown_lints from another file.
This adds a test for #84936 which was incidentally fixed via #97266. It is a strange issue where `#![allow(unknown_lints)]` at the crate root was not applying to unknown lints that fired in a non-inline-module. I did not dig further into how #97266 fixed it, but I did verify it. I couldn't find any existing tests which did anything similar.
Closes#84936
Warn on inductive cycle in coherence leading to impls being considered not overlapping
This PR implements a `coinductive_overlap_in_coherence` lint (#114040), which warns users against cases where two impls are considered **not** to overlap during coherence due to an inductive cycle disproving one of the predicates after unifying the two impls.
Cases where this lint fires will become an overlap error if we ever move to coinduction, so I'd like to make this a warning to avoid having more crates take advantage of this behavior in the mean time. Also, since the new trait solver treats inductive cycles as ambiguity, not an error, this is a blocker for landing the new trait solver in coherence.
