Bump ui_test
This makes `ui_test` parse `--bless` and allows a follow up change to use `Mode::Error` (instead of `Mode::Yolo`) with `RustfixMode::Everything`
changelog: none
new lint: `missing_asserts_for_indexing`
Fixes#8296
This lint looks for repeated slice indexing and suggests adding an `assert!` beforehand that helps LLVM elide bounds checks. The lint documentation has an example.
I'm not really sure what category this should be in. It seems like a nice lint for the `perf` category but I suspect this has a pretty high FP rate, so it might have to be a pedantic lint or something.
I'm also not sure about the name. If someone knows a better name for this lint, I'd be fine with changing it.
changelog: new lint [`missing_asserts_for_indexing`]
Fix span when linting `explicit_auto_deref` immediately after `needless_borrow`
fixes#11366
changelog: `explicit_auto_deref`: Fix span when linting immediately after `needless_borrow`
Add config flag for reborrows in explicit_iter_loop
This PR adds a config flag for enforcing explicit into iter lint for reborrowed values. The config flag, `enforce_iter_loop_reborrow`, can be added to clippy.toml files to enable the linting behaviour. By default the reborrow lint is disabled.
fixes: #11074
changelog: [`explicit_iter_loop`]: add config flag `enforce_iter_loop_reborrow` to disable reborrow linting by default
new lint: `iter_out_of_bounds`
Closes#11345
The original idea in the linked issue seemed to be just about arrays afaict, but I extended this to catch some other iterator sources such as `iter::once` or `iter::empty`.
I'm not entirely sure if this name makes a lot of sense now that it's not just about arrays anymore (specifically, not sure if you can call `.take(1)` on an `iter::Empty` to be "out of bounds"?).
changelog: [`iter_out_of_bounds`]: new lint
[`unnecessary_unwrap`]: lint on `.as_ref().unwrap()`
Closes#11371
This turned out to be a little more code than I originally thought, because the lint also makes sure to not lint if the user tries to mutate the option:
```rs
if option.is_some() {
option = None;
option.unwrap(); // don't lint here
}
```
... which means that even if we taught this lint to recognize `.as_mut()`, it would *still* not lint because that would count as a mutation. So we need to allow `.as_mut()` calls but reject other kinds of mutations.
Unfortunately it doesn't look like this is possible with `is_potentially_mutated` (seeing what kind of mutation happened).
This replaces it with a custom little visitor that does basically what it did before, but also allows `.as_mut()`.
changelog: [`unnecessary_unwrap`]: lint on `.as_ref().unwrap()`
skip float_cmp check if lhs is a custom type
*Please write a short comment explaining your change (or "none" for internal only changes)*
changelog: [`float_cmp`]: allow float eq comparison when lhs is a custom type that implements PartialEq<f32/f64>
If the lhs of a comparison is not float, it means there is a user implemented PartialEq, and the caller is invoking that custom version of `==`, instead of the default floating point equal comparison.
People may wrap f32 with a struct (say `MyF32`) and implement its PartialEq that will do the `is_close()` check, so that `MyF32` can be compared with either f32 or `MyF32`.
[`if_then_some_else_none`]: look into local initializers for early returns
Fixes#11394
As the PR title says, problem was that it only looked for early returns in semi statements. Local variables don't count as such, so it didn't count `let _v = x?;` (or even just `let _ = return;`) as a possible early return and didn't realize that it can't lint then.
Imo the `stmts_contains_early_return` function that was used before is redundant. `contains_return` could already do that if we just made the parameter a bit more generic, just like `for_each_expr`, which can already accept `&[Stmt]`
changelog: [`if_then_some_else_none`]: look into local initializers for early returns
This commit adds a config flag for enforcing explicit into iter lint
for reborrowed values. The config flag, enforce_iter_loop_reborrow, can be
added to clippy.toml files to enable the linting behaviour. By default
the lint is not enabled.
fix the uitest `enum_clike_unportable_variant`
*Please write a short comment explaining your change (or "none" for internal only changes)*
changelog: none
fix "derivable_impls: attributes are ignored"
*Please write a short comment explaining your change (or "none" for internal only changes)*
changelog: [`derivable_impls`]: allow the lint when the trait-impl methods has any attribute.
Update changelog stable note
Roses are red,
violets are blue,
new release,
tiny todo
---
![cat gif](https://cataas.com/cat/SbbeZwoC81vSTzBX)
---
changelog: none
new lint: `implied_bounds_in_impls`
Closes#10849
A new lint that looks for explicitly specified bounds that are already implied by other bounds in `impl Trait` return position types.
One example, as shown in the linked example, would be
```rs
fn foo<T>(x: T) -> impl Deref<Target = T> + DerefMut<Target = T> {
Box::new(x)
}
```
`DerefMut<Target = T>` requires `Deref<Target = T>` to be wellformed, so specifying `Deref` there is unnecessary.
This currently "ignores" (i.e., does not lint at all) transitive supertrait bounds (e.g. `trait A {} trait B: A {} trait C: B {}`, then having an `impl A + C` type), because that seems a bit more difficult and I think this isn't technically a blocker. It leads to FNs, but shouldn't bring any FPs
changelog: new lint [`implied_bounds_in_impls`]