[`assertions_on_result_states`]: Fix suggestion when `assert!` is not in a statement.
fix https://github.com/rust-lang/rust-clippy/issues/9450
changelog: [`assertions_on_result_states`]: Fix suggestion when `assert!` is not in a statement.
Replace u128 with u64 in large_enum_variant uitest
A u128 has [an 8 byte alignment on x86](https://github.com/rust-lang/rust/issues/54341), but a 16 byte alignment on aarch64 which changes the size of the enums due to extra padding. This means the test fails on aarch64
changelog: none
Fix `range_{plus,minus}_one` bad suggestions
Fixes#9431.
The current `range_plus_one` and `range_minus_one` suggestions are completely incorrect when macros are involved.
This commit resolves this by disabling the lints for any range expression that is expanded from a macro. The reasons for this are that it is very difficult to create a correct suggestion in this case and that false negatives are less important for pedantic lints.
changelog: Fix `range_{plus,minus}_one` bad suggestions
Fixes#9431.
The current `range_plus_one` and `range_minus_one` suggestions
are completely incorrect when macros are involved.
This commit resolves this by disabling the lints for any range
expression that is expanded from a macro. The reasons for this
are that it is very difficult to create a correct suggestion in
this case and that false negatives are less important for
pedantic lints.
Update cargo in lintcheck_crates.toml
0.49.0 depends on a version of socket2 that no longer builds due to
```
error[E0512]: cannot transmute between types of different sizes, or dependently-sized types
--> /home/alex/.cargo/registry/src/github.com-1ecc6299db9ec823/socket2-0.3.11/src/sockaddr.rs:156:9
|
156 | mem::transmute::<SocketAddrV4, sockaddr_in>(v4);
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
|
= note: source type: `SocketAddrV4` (48 bits)
= note: target type: `sockaddr_in` (128 bits)
```
changelog: none
[Arithmetic] Consider literals
Fixes https://github.com/rust-lang/rust-clippy/issues/9307 and makes the `arithmetic` lint behave like `integer_arithmetic`.
It is worth noting that literal integers of a binary operation (`1 + 1`, `i32::MAX + 1`), **regardless if they are in a constant environment**, won't trigger the lint. Assign operations also have similar reasoning.
changelog: Consider literals in the arithmetic lint
Suggest `unwrap_or_default` when closure returns `"".to_string`
Closes https://github.com/rust-lang/rust-clippy/issues/9420
changelog: [`unwrap_or_else_default`]: suggest `unwrap_or_default()` instead of `unwrap_or_else` with a closure that returns an empty `to_string`.
`BindingAnnotation` refactor
* `ast::BindingMode` is deleted and replaced with `hir::BindingAnnotation` (which is moved to `ast`)
* `BindingAnnotation` is changed from an enum to a tuple struct e.g. `BindingAnnotation(ByRef::No, Mutability::Mut)`
* Associated constants added for convenience `BindingAnnotation::{NONE, REF, MUT, REF_MUT}`
One goal is to make it more clear that `BindingAnnotation` merely represents syntax `ref mut` and not the actual binding mode. This was especially confusing since we had `ast::BindingMode`->`hir::BindingAnnotation`->`thir::BindingMode`.
I wish there were more symmetry between `ByRef` and `Mutability` (variant) naming (maybe `Mutable::Yes`?), and I also don't love how long the name `BindingAnnotation` is, but this seems like the best compromise. Ideas welcome.
Suggest `Entry::or_default` for `Entry::or_insert(Default::default())`
Unlike past similar work done in #6228, expand the existing `or_fun_call`
lint to detect `or_insert` calls with a `T::new()` or `T::default()`
argument, much like currently done for `unwrap_or` calls. In that case,
suggest the use of `or_default`, which is more idiomatic.
Note that even with this change, `or_insert_with(T::default)` calls
aren't detected as candidates for `or_default()`, in the same manner
that currently `unwrap_or_else(T::default)` calls aren't detected as
candidates for `unwrap_or_default()`.
Also, as a nearby cleanup, change `KNOW_TYPES` from `static` to `const`,
since as far as I understand it's preferred (should Clippy have a lint
for that?).
Addresses #3812.
*Please write a short comment explaining your change (or "none" for internal only changes)*
changelog: [`or_fun_call`]: Suggest `Entry::or_default` for `Entry::or_insert(Default::default())`
Unlike past similar work done in #6228, expand the existing `or_fun_call`
lint to detect `or_insert` calls with a `T::new()` or `T::default()`
argument, much like currently done for `unwrap_or` calls. In that case,
suggest the use of `or_default`, which is more idiomatic.
Note that even with this change, `or_insert_with(T::default)` calls
aren't detected as candidates for `or_default()`, in the same manner
that currently `unwrap_or_else(T::default)` calls aren't detected as
candidates for `unwrap_or_default()`.
Also, as a nearby cleanup, change `KNOW_TYPES` from `static` to `const`,
since as far as I understand it's preferred (should Clippy have a lint
for that?).
Fixes#3812.
fix wording for `derivable_impls`
While looking at the explanation as to why this lint was not automatically applicable, found the explanation a bit clunky grammatically.
Feel free to close if you consider the wording was correct in the first place.
changelog: none
Fix `unnecessary_to_owned` false positive
Fixes#9351.
Note that this commit reworks that fix for #9317. The change
is to check that the type implements `AsRef<str>` before regarding
`to_string` as an equivalent of `to_owned`. This was suggested
by Jarcho in the #9317 issue comments.
The benefit of this is that it moves some complexity out of
`check_other_call_arg` and simplifies the module as a whole.
changelog: FP: [`unnecessary_to_owned`]: No longer lints, if type change would cause errors in the caller function
Fixes#9351.
Note that this commit reworks that fix for #9317. The change
is to check that the type implements `AsRef<str>` before regarding
`to_string` as an equivalent of `to_owned`. This was suggested
by Jarcho in the #9317 issue comments.
The benefit of this is that it moves some complexity out of
`check_other_call_arg` and simplifies the module as a whole.
Use `approx_ty_size` for `large_enum_variant`
This builds upon #9373 to use the approximate size of each variant for `large_enum_variant`. This allows us to lint in situations where an `enum` contains generics but is still guaranteed to have a large variant on an at-least basis, e.g. with `(T, [u8; 512])`.
* I've changed the wording from "is ... bytes" to "contains at least" because
* the size is now an approximate lower bound (e.g. `512` in the example above). The actual size is larger due to `T`, including due to `T`'s memory layout.
* the discriminant is not taken into account in the message. This comes up with variants like `A(T)`, which are "is at least 0 bytes" otherwise, which may be misleading.
* If the second-largest variant has no fields, there is a special case "carries no data" instead of "is at least 0 bytes".
* A variant like `A(T)` is "at least 0 bytes", which is technically true, yet we don't distinguish between "indeterminate" and truly "ZST".
* The generics-tests that were there before now lint while they didn't lint before. AFAICS this is correct.
I guess the above is correct-ish. However, I use the `SubstsRef` that I got via `cx.tcx.type_of(item.def_id)` to solve for generics in the variants. Is this even applicable, since we start from an - [ ] `ItemKind`?
changelog: none
