reword error for invalid range patterns
For half-open ranges, specifies that the upper bound cannot be the minimum.
Also specify that this only applies to range patterns and not also expressions.
Fixesrust-lang/rust#149165
For half-open ranges, specifies that the upper bound cannot be the minimum.
Also specify that this only applies to range patterns and not also expressions.
Gate tests with the right edition
This PR guarantees that `./x test --test-args="--edition XXXX" ui` runs correctly with the 2015, 2018 and 2021 editions.
I don't expect this PR to hold up over time but it helps to submit further updates to the `//@ edition` directives of tests where we can use the new range syntax to have a more robust testing across different editions
r? `@fmease`
---
try-job: aarch64-gnu
try-job: aarch64-apple
try-job: x86_64-msvc-1
try-job: i686-msvc-1
try-job: x86_64-mingw-1
try-job: test-various
try-job: armhf-gnu
Point at statics and consts being mutable borrowed or written to:
```
error[E0594]: cannot assign to immutable static item `NUM`
--> $DIR/E0594.rs:4:5
|
LL | static NUM: i32 = 18;
| --------------- this `static` cannot be written to
...
LL | NUM = 20;
| ^^^^^^^^ cannot assign
```
Point at the expression that couldn't be mutably borrowed from a pattern:
```
error[E0596]: cannot borrow data in a `&` reference as mutable
--> $DIR/mut-pattern-of-immutable-borrow.rs:19:14
|
LL | match &arg.field {
| ---------- this cannot be borrowed as mutable
LL | Some(ref mut s) => s.push('a'),
| ^^^^^^^^^ cannot borrow as mutable
```
```
error[E0401]: can't use `Self` from outer item
--> $DIR/E0401.rs:22:25
|
LL | impl<T> Iterator for A<T> {
| ---- `Self` type implicitly declared here, by this `impl`
...
LL | fn helper(sel: &Self) -> u8 {
| ------ ^^^^ use of `Self` from outer item
| |
| `Self` used in this inner function
|
help: refer to the type directly here instead
|
LL - fn helper(sel: &Self) -> u8 {
LL + fn helper(sel: &A<T>) -> u8 {
|
```
Point at inner item when it uses generic type param from outer item or `Self`
Partially address rust-lang/rust#37892.
In E0401 generated in resolve:
```
error[E0401]: can't use generic parameters from outer item
--> $DIR/E0401.rs:4:39
|
LL | fn foo<T>(x: T) {
| - type parameter from outer item
LL | fn bfnr<U, V: Baz<U>, W: Fn()>(y: T) {
| ---- ^ use of generic parameter from outer item
| |
| generic parameter used in this inner function
|
help: try introducing a local generic parameter here
|
LL | fn bfnr<T, U, V: Baz<U>, W: Fn()>(y: T) {
| ++
```
In E0401 generated in hir_typeck:
```
error[E0401]: can't reference `Self` constructor from outer item
--> $DIR/do-not-ice-on-note_and_explain.rs:6:13
|
LL | impl<B> A<B> {
| ------------ the inner item doesn't inherit generics from this impl, so `Self` is invalid to reference
LL | fn d() {
LL | fn d() {
| - `Self` used in this inner item
LL | Self(1)
| ^^^^ help: replace `Self` with the actual type: `A`
```
Point at trait and associated item when that associated item is used in a const context. Suggest making the trait `#[const_trait]`.
```
error[E0015]: cannot call non-const method `<() as Trait>::foo` in constant functions
--> $DIR/inline-incorrect-early-bound-in-ctfe.rs:26:8
|
LL | ().foo();
| ^^^^^
|
note: method `foo` is not const because trait `Trait` is not const
--> $DIR/inline-incorrect-early-bound-in-ctfe.rs:13:1
|
LL | trait Trait {
| ^^^^^^^^^^^ this trait is not const
LL | fn foo(self);
| ------------- this method is not const
= note: calls in constant functions are limited to constant functions, tuple structs and tuple variants
help: consider making trait `Trait` const
|
LL + #[const_trait]
LL | trait Trait {
|
```
Modify `AttributeTemplate` to support list of alternatives for list and name value attribute styles.
Suggestions now provide more correct suggested code:
```
error[E0805]: malformed `used` attribute input
--> $DIR/used_with_multi_args.rs:3:1
|
LL | #[used(compiler, linker)]
| ^^^^^^------------------^
| |
| expected a single argument here
|
help: try changing it to one of the following valid forms of the attribute
|
LL - #[used(compiler, linker)]
LL + #[used(compiler)]
|
LL - #[used(compiler, linker)]
LL + #[used(linker)]
|
LL - #[used(compiler, linker)]
LL + #[used]
|
```
instead of the prior "masking" of the lack of this feature by suggesting pipe-separated lists:
```
error[E0805]: malformed `used` attribute input
--> $DIR/used_with_multi_args.rs:3:1
|
LL | #[used(compiler, linker)]
| ^^^^^^------------------^
| |
| expected a single argument here
|
help: try changing it to one of the following valid forms of the attribute
|
LL - #[used(compiler, linker)]
LL + #[used(compiler|linker)]
|
LL - #[used(compiler, linker)]
LL + #[used]
|
```
Account for bare tuples and `Pin` methods in field searching logic
When looking for the field names and types of a given type, account for tuples. This allows suggestions for incorrectly nested field accesses and field name typos to trigger as intended. Previously these suggestions only worked on `ty::Adt`, including tuple structs which are no different to tuples, so they should behave the same in suggestions.
When suggesting field access which would encounter a method not found, do not suggest pinning when those methods are on `impl Pin` itself.
```
error[E0599]: no method named `get_ref` found for tuple `(BufReader<File>,)` in the current scope
--> $DIR/missing-field-access.rs:11:15
|
LL | let x = f.get_ref();
| ^^^^^^^ method not found in `(BufReader<File>,)`
|
help: one of the expressions' fields has a method of the same name
|
LL | let x = f.0.get_ref();
| ++
```
instead of
```
error[E0599]: no method named `get_ref` found for tuple `(BufReader<File>,)` in the current scope
--> $DIR/missing-field-access.rs:11:15
|
LL | let x = f.get_ref();
| ^^^^^^^ method not found in `(BufReader<File>,)`
|
help: consider pinning the expression
|
LL ~ let mut pinned = std::pin::pin!(f);
LL ~ let x = pinned.as_ref().get_ref();
|
```
Fixrust-lang/rust#144602.
`TyCtxt::short_string` ensures that user visible type paths aren't overwhelming on the terminal output, and properly saves the long name to disk as a side-channel. We already use these throughout the compiler and have been using them as needed when users find cases where the output is verbose. This is a proactive search of some cases to use `short_string`.
We add support for shortening the path of "trait path only".
Every manual use of `short_string` is a bright marker that that error should be using structured diagnostics instead (as they have proper handling of long types without the maintainer having to think abou tthem).
When we don't actually print out a shortened type we don't need the "use `--verbose`" note.
On E0599 show type identity to avoid expanding the receiver's generic parameters.
Unify wording on `long_ty_path` everywhere.
Remove false label when `self` resolve failure does not relate to macro
Fixesrust-lang/rust#143134
In the first commit, I did some code-clean, moving `suggest*` to `suggestions/` dir.
In the second, commit, I added ui test.
In the third, I change the code, and present the test result.
r? compiler
variadic functions: remove list of supported ABIs from error
I think this list is problematic for multiple reasons:
- It is bound to go out-of-date as it is in a very different place from where we actually define which functions support varagrs (`fn supports_varargs`).
- Many of the ABIs we list only work on some targets; it makes no sense to mention "aapcs" as a possible ABI when building for x86_64. (This led to a lot of confusion in https://github.com/rust-lang/rust/issues/110505 where the author thought they should use "cdecl" and then were promptly told that "cdecl" is not a legal ABI on their target.)
- Typically, when the programmer wrote `extern "foobar"`, it is because they need the "foobar" ABI. It is of little use to tell them that there are other ABIs with which varargs would work.
Cc ``@workingjubilee``
const-eval error: always say in which item the error occurred
I don't see why "is this generic" should make a difference. It may be reasonable to key this on whether the error occurs in a `const fn` that was invoked by a const (making it non-obvious which constant it is) vs inside the body of the const.
r? `@oli-obk`
