When giving an error about an obligation introduced by a function call
that an argument doesn't fulfill, and that argument is a block, add a
span_label pointing at the innermost tail expression.
Move the information about pointing at the call argument expression in
an unmet obligation span from the `FulfillmentError` to a new
`ObligationCauseCode`.
Add non_exhaustive_omitted_patterns lint related to rfc-2008-non_exhaustive
Fixes: #84332
This PR adds `non_exhaustive_omitted_patterns`, an allow by default lint that is triggered when a `non_exhaustive` type is missing explicit patterns. The warning or deny attribute can be put above the wildcard `_` pattern on enums or on the expression for enums or structs. The lint is capable of warning about multiple types within the same pattern. This lint will not be triggered for `if let ..` patterns.
```rust
// crate A
#[non_exhaustive]
pub struct Foo {
a: u8,
b: usize,
}
#[non_exhaustive]
pub enum Bar {
A(Foo),
B,
}
// crate B
#[deny(non_exhaustive_omitted_patterns)] // here
match Bar::B {
Bar::B => {}
#[deny(non_exhaustive_omitted_patterns)] // or here
_ => {}
}
#[warn(non_exhaustive_omitted_patterns)] // only here
let Foo { a, .. } = Foo::default();
#[deny(non_exhaustive_omitted_patterns)]
match Bar::B {
// triggers for Bar::B, and Foo.b
Bar::A(Foo { a, .. }) => {}
// if the attribute was here only Bar::B would cause a warning
_ => {}
}
```
Rollup of 8 pull requests
Successful merges:
- #87320 (Introduce -Z remap-cwd-prefix switch)
- #88690 (Accept `m!{ .. }.method()` and `m!{ .. }?` statements. )
- #88775 (Revert anon union parsing)
- #88841 (feat(rustc_typeck): suggest removing bad parens in `(recv.method)()`)
- #88907 (Highlight the `const fn` if error happened because of a bound on the impl block)
- #88915 (`Wrapping<T>` has the same layout and ABI as `T`)
- #88933 (Remove implementation of `min_align_of` intrinsic)
- #88951 (Update books)
Failed merges:
r? `@ghost`
`@rustbot` modify labels: rollup
Disable validate_maintainers.
The validate_maintainers check has started to fail with the error:
```
HTTPError: HTTP Error 403: Forbidden
b'{"message":"Must have admin access to view repository collaborators.","documentation_url":"https://docs.github.com/rest/reference/repos#list-repository-collaborators"}'
```
Apparently GitHub has restricted the collaborators API to admins. For now, this just disables the check to get CI working again. Eventually, I think we'll just need to remove the check since we will unlikely use an admin token, and I don't see a workaround. The `MAINTAINERS` list doesn't change often, so we may just need to put a sternly worded comment near the list.
Highlight the `const fn` if error happened because of a bound on the impl block
Currently, for the following code, the compiler produces the errors like the
following:
```rust
struct Type<T>(T);
impl<T: Clone> Type<T> {
const fn f() {}
}
```
```text
error[E0658]: trait bounds other than `Sized` on const fn parameters are unstable
--> ./test.rs:3:6
|
3 | impl<T: Clone> Type<T> {
| ^
|
= note: see issue #57563 <https://github.com/rust-lang/rust/issues/57563> for more information
= help: add `#![feature(const_fn_trait_bound)]` to the crate attributes to enable
```
This can be confusing (especially to newcomers) since the error mentions "const fn parameters", but highlights only the impl.
This PR adds function highlighting, changing the error to the following:
```text
error[E0658]: trait bounds other than `Sized` on const fn parameters are unstable
--> ./test.rs:3:6
|
3 | impl<T: Clone> Type<T> {
| ^
4 | pub const fn f() {}
| ---------------- function declared as const here
|
= note: see issue #57563 <https://github.com/rust-lang/rust/issues/57563> for more information
= help: add `#![feature(const_fn_trait_bound)]` to the crate attributes to enable
```
---
I've originally wanted to point directly to `const` token, but couldn't find a way to get it's span. It seems like this span is lost during the AST -> HIR lowering.
Also, since the errors for object casts in `const fn`s (`&T` -> `&dyn Trait`) seem to trigger the same error, this PR accidentally changes these errors too. Not sure if it's desired or how to fix this.
P.S. it's my first time contributing to diagnostics, so feedback is very appreciated!
---
r? ```@estebank```
```@rustbot``` label: +A-diagnostics
Revert anon union parsing
Revert PR #84571 and #85515, which implemented anonymous union parsing in a manner that broke the context-sensitivity for the `union` keyword and thus broke stable Rust code.
Fix#88583.
Accept `m!{ .. }.method()` and `m!{ .. }?` statements.
This PR fixes something that I keep running into when using `quote!{}.into()` in a proc macro to convert the `proc_macro2::TokenStream` to a `proc_macro::TokenStream`:
Before:
```
error: expected expression, found `.`
--> src/lib.rs:6:6
|
4 | quote! {
5 | ...
6 | }.into()
| ^ expected expression
```
After:
```
```
(No output, compiles fine.)
---
Context:
For expressions like `{ 1 }` and `if true { 1 } else { 2 }`, we accept them as full statements without a trailing `;`, which means the following is not accepted:
```rust
{ 1 } - 1 // error
```
since that is parsed as two statements: `{ 1 }` and `-1`. Syntactically correct, but the type of `{ 1 }` should be `()` as there is no `;`.
However, for specifically `.` and `?` after the `}`, we do [continue parsing it as an expression](13db8440bb/compiler/rustc_parse/src/parser/expr.rs (L864-L876)):
```rust
{ "abc" }.len(); // ok
```
For braced macro invocations, we do not do this:
```rust
vec![1, 2, 3].len(); // ok
vec!{1, 2, 3}.len(); // error
```
(It parses `vec!{1, 2, 3}` as a full statement, and then complains about `.len()` not being a valid expression.)
This PR changes this to also look for a `.` and `?` after a braced macro invocation. We can be sure the macro is an expression and not a full statement in those cases, since no statement can start with a `.` or `?`.
Introduce -Z remap-cwd-prefix switch
This switch remaps any absolute paths rooted under the current
working directory to a new value. This includes remapping the
debug info in `DW_AT_comp_dir` and `DW_AT_decl_file`.
Importantly, this flag does not require passing the current working
directory to the compiler, such that the command line can be
run on any machine (with the same input files) and produce the
same results. This is critical property for debugging compiler
issues that crop up on remote machines.
This is based on adetaylor's dbc4ae7cba
Major Change Proposal: https://github.com/rust-lang/compiler-team/issues/450
Discussed on #38322. Would resolve issue #87325.
This disables the remap_cwd_bin test which is failing on windows,
and adds a test for --remap-path-prefix making a bin crate
instead, to see if it will fail the same way.
Use a separate interner type for UniqueTypeId
Using symbol::Interner makes it very easy to mixup UniqueTypeId symbols
with the global interner. In fact the Debug implementation of
UniqueTypeId did exactly this.
Using a separate interner type also avoids prefilling the interner with
unused symbols and allow for optimizing the symbol interner for parallel
access without negatively affecting the single threaded module codegen.
Const drop
The changes are pretty primitive at this point. But at least it works. ^-^
Problems with the current change that I can think of now:
- [x] `~const Drop` shouldn't change anything in the non-const world.
- [x] types that do not have drop glues shouldn't fail to satisfy `~const Drop` in const contexts. `struct S { a: u8, b: u16 }` This might not fail for `needs_non_const_drop`, but it will fail in `rustc_trait_selection`.
- [x] The current change accepts types that have `const Drop` impls but have non-const `Drop` glue.
Fixes#88424.
Significant Changes:
- `~const Drop` is no longer treated as a normal trait bound. In non-const contexts, this bound has no effect, but in const contexts, this restricts the input type and all of its transitive fields to either a) have a `const Drop` impl or b) can be trivially dropped (i.e. no drop glue)
- `T: ~const Drop` will not be linted like `T: Drop`.
- Instead of recursing and iterating through the type in `rustc_mir::transform::check_consts`, we use the trait system to special case `~const Drop`. See [`rustc_trait_selection::...::candidate_assembly#assemble_const_drop_candidates`](https://github.com/fee1-dead/rust/blob/const-drop/compiler/rustc_trait_selection/src/traits/select/candidate_assembly.rs#L817) and others.
Changes not related to `const Drop`ping and/or changes that are insignificant:
- `Node.constness_for_typeck` no longer returns `hir::Constness::Const` for type aliases in traits. This was previously used to hack how we determine default bound constness for items. But because we now use an explicit opt-in, it is no longer needed.
- Removed `is_const_impl_raw` query. We have `impl_constness`, and the only existing use of that query uses `HirId`, which means we can just operate it with hir.
- `ty::Destructor` now has a field `constness`, which represents the constness of the destructor.
r? `@oli-obk`
Add linting on non_exhaustive structs and enum variants
Add ui tests for non_exhaustive reachable lint
Rename to non_exhaustive_omitted_patterns and avoid triggering on if let
Enum should prefer discriminant zero for niche
Given an enum with unassigned zero-discriminant, rust should prefer it for niche selection.
Zero as discriminant for `Option<Enum>` makes it possible for LLVM to optimize resulting asm.
- Eliminate branch when expected value coincides.
- Use smaller instruction `test eax, eax` instead of `cmp eax, ?`
- Possible interaction with zeroed memory?
Example:
```rust
pub enum Size {
One = 1,
Two = 2,
Three = 3,
}
pub fn handle(x: Option<Size>) -> u8 {
match x {
None => {0}
Some(size) => {size as u8}
}
}
```
In this case discriminant zero is available as a niche.
Above example on nightly:
```asm
mov eax, edi
cmp al, 4
jne .LBB0_2
xor eax, eax
.LBB0_2:
ret
```
PR:
```asm
mov eax, edi
ret
```
I created this PR because I had a performance regression when I tried to use an enum to represent legal grapheme byte-length for utf8.
Using an enum instead of `NonZeroU8` [here](d683304f5d/src/internal/decoder_incomplete.rs (L90))
resulted in a performance regression of about 5%.
I consider this to be a somewhat realistic benchmark.
Thanks to `@ogoffart` for pointing me in the right direction!
Edit: Updated description
Improve error message for missing trait in trait impl
Fixes#88818. For the following example:
```rust
struct S { }
impl for S { }
```
the current output is:
```
error: missing trait in a trait impl
--> t1.rs:2:5
|
2 | impl for S { }
| ^
```
With my changes, I get:
```
error: missing trait in a trait impl
--> t1.rs:2:5
|
2 | impl for S { }
| ^
|
help: add a trait here
|
2 | impl Trait for S { }
| +++++
help: for an inherent impl, drop this `for`
|
2 - impl for S { }
2 + impl S { }
|
```
Fix duplicate bounds for const_trait_impl
Fixes#88383.
Compare the constness of the candidates before winnowing and removing a `~const` `BoundCandidate`.
Add links for primitives in "jump to definition" feature
Follow-up of #84176.
I created a function `primitive_from_str` which is code that was originally in `collect_intra_doc_links::resolve_primitive` to prevent code duplication.
I also created the `primitive_link_url` function which is somewhat similar to `primitive_link` but too much different to merge both of them.
r? ``@jyn514``
Use smaller spans for some structured suggestions
Use more accurate suggestion spans for
* argument parse error
* fully qualified path
* missing code block type
* numeric casts