[`derivable_impls`]: don't lint if `default()` call expr unsize-coerces to trait object
Fixes#10158.
This fixes a FP where the derive-generated Default impl would have different behavior because of unsize coercion from `Box<T>` to `Box<dyn Trait>`:
```rs
struct S {
x: Box<dyn std::fmt::Debug>
}
impl Default for S {
fn default() -> Self {
Self {
x: Box::<()>::default()
// ^~ Box<()> coerces to Box<dyn Debug>
// #[derive(Default)] would call Box::<dyn Debug>::default()
}
}
}
```
(this intentionally only looks for trait objects `dyn` specifically, and not any unsize coercion, e.g. `&[i32; 5]` to `&[i32]`, because that breaks existing tests and isn't actually problematic, as far as I can tell)
changelog: [`derivable_impls`]: don't lint if `default()` call expression unsize-coerces to trait object
[`needless_doctest_main`]: ignore `main()` in `no_test` code fences
close#10491
*Please write a short comment explaining your change (or "none" for internal only changes)*
changelog: [`needless_doctest_main`]: ignore `main()` in `no_test` code fence
[`map_unwrap_or`]: don't lint when referenced variable is moved
Fixes#10579.
The previous way of checking if changing `map(f).unwrap_or(a)` to `map_or(a, f)` is safe had a flaw when the argument to `unwrap_or` moves a binding and the `map` closure references that binding in some way.
It used to simply check if any of the identifiers in the `unwrap_or` argument are referenced in the `map` closure, but it didn't consider the case where the moved binding is referred to through references, for example:
```rs
let x = vec![1, 2];
let x_ref = &x;
Some(()).map(|_| x_ref.clone()).unwrap_or(x);
```
This compiles as is, but we cannot change it to `map_or`. This lint however did suggest changing it, because the simple way of checking if `x` is referenced anywhere in the `map` closure fails here. The safest thing to do here imo (what this PR does) is check if the moved value `x` is referenced *anywhere* in the body (before the `unwrap_or` call). One can always create a reference to the value and smuggle them into the closure, without actually referring to `x`. The original, linked issue shows another one such example:
```rs
let x = vec![1,2,3,0];
let y = x.strip_suffix(&[0]).map(|s| s.to_vec()).unwrap_or(x);
```
`x.strip_suffix(&[0])` creates a reference to `x` that is available through `s` inside of the `map` closure, so we can't change it to `map_or`.
changelog: [`map_unwrap_or`]: don't lint when referenced variable is moved
[`no_effect`]: Suggest adding `return` if applicable
Closes#10941
Unfortunately doesn't catch anything complex as `no_effect` already wouldn't, but I'm fine with that (it catches `ControlFlow` at least :D)
changelog: [`no_effect`]: Suggest adding `return` if statement has same type as function's return type and is the last statement in a block
Improve suggestion for [`needless_lifetimes`]
Fixes#10093
changelog: [`needless_lifetimes`]: Suggestion now points at the elidable lifetimes, rather than the entire function declaration
[`missing_const_for_fn`]: Ensure dropped locals are `~const Destruct`
this will check every local for `TerminatorKind::Drop` to ensure they can be evaluated at compile time, not sure if this is the best way to do this but MIR is confusing and it works so...
fixes#10617
changelog: [`missing_const_for_fn`]: Ensure dropped locals are `~const Destruct`
[`useless_vec`]: lint on `vec![_]` invocations that adjust to a slice
Fixes#2262 (well, actually my PR over at #10901 did do most of the stuff, but this PR implements the one last other case mentioned in the comments that my PR didn't fix)
Before this change, it would lint `(&vec![1]).iter().sum::<i32>()`, but not `vec![1].iter().sum::<i32>()`. This PR handles this case.
This also refactors a few things that I wanted to do in my other PR but forgot about.
changelog: [`useless_vec`]: lint on `vec![_]` invocations that adjust to a slice