only return nested goals for `Certainty::Yes`
Ambiguous `NormalizesTo` goals can otherwise repeatedly add the same nested goals to the parent.
r? ```@compiler-errors```
Implement the internal feature `cfg_target_has_reliable_f16_f128`
Support for `f16` and `f128` is varied across targets, backends, and backend versions. Eventually we would like to reach a point where all backends support these approximately equally, but until then we have to work around some of these nuances of support being observable.
Introduce the `cfg_target_has_reliable_f16_f128` internal feature, which provides the following new configuration gates:
* `cfg(target_has_reliable_f16)`
* `cfg(target_has_reliable_f16_math)`
* `cfg(target_has_reliable_f128)`
* `cfg(target_has_reliable_f128_math)`
`reliable_f16` and `reliable_f128` indicate that basic arithmetic for the type works correctly. The `_math` versions indicate that anything relying on `libm` works correctly, since sometimes this hits a separate class of codegen bugs.
These options match configuration set by the build script at [1]. The logic for LLVM support is duplicated as-is from the same script. There are a few possible updates that will come as a follow up.
The config introduced here is not planned to ever become stable, it is only intended to replace the build scripts for `std` tests and `compiler-builtins` that don't have any way to configure based on the codegen backend.
MCP: https://github.com/rust-lang/compiler-team/issues/866
Closes: https://github.com/rust-lang/compiler-team/issues/866
[1]: 555e1d0386/library/std/build.rs (L84-L186)
---
The second commit makes use of this config to replace `cfg_{f16,f128}{,_math}` in `library/`. I omitted providing a `cfg(bootstrap)` configuration to keep things simpler since the next beta branch is in two weeks.
try-job: aarch64-gnu
try-job: i686-msvc-1
try-job: test-various
try-job: x86_64-gnu
try-job: x86_64-msvc-ext2
Move inline asm check to typeck, properly handle aliases
Pull `InlineAsmCtxt` down to `rustc_hir_typeck`, and instead of using things like `Ty::is_copy`, use the `InferCtxt`-aware methods. To fix https://github.com/rust-lang/trait-system-refactor-initiative/issues/189, we also add a `try_structurally_resolve_*` call to `expr_ty`.
r? lcnr
Do not compute type_of for impl item if impl where clauses are unsatisfied
Consider the following code:
```rust
trait Foo {
fn call(self) -> impl Send;
}
trait Nested {}
impl<T> Foo for T
where
T: Nested,
{
fn call(self) -> impl Sized {
NotSatisfied.call()
}
}
struct NotSatisfied;
impl Foo for NotSatisfied {
fn call(self) -> impl Sized {
todo!()
}
}
```
In `impl Foo for NotSatisfied`, we need to prove that the RPITIT is well formed. This requires proving the item bound `<NotSatisfied as Foo>::RPITIT: Send`. Normalizing `<NotSatisfied as Foo>::RPITIT: Send` assembles two impl candidates, via the `NotSatisfied` impl and the blanket `T` impl. We end up computing the `type_of` for the blanket impl even if `NotSatisfied: Nested` where clause does not hold.
This type_of query ends up needing to prove that its own `impl Sized` RPIT satisfies `Send`, which ends up needing to compute the hidden type of the RPIT, which is equal to the return type of `NotSatisfied.call()`. That ends up in a query cycle, since we subsequently try normalizing that return type via the blanket impl again!
In the old solver, we don't end up computing the `type_of` an impl candidate if its where clauses don't hold, since this select call would fail before confirming the projection candidate:
d7ea436a02/compiler/rustc_trait_selection/src/traits/project.rs (L882)
This PR makes the new solver more consistent with the old solver by adding a call to `try_evaluate_added_goals` after regstering the impl predicates, which causes us to bail before computing the `type_of` for impls if the impl definitely doesn't apply.
r? lcnr
Fixes https://github.com/rust-lang/trait-system-refactor-initiative/issues/185
allow deref patterns to move out of boxes
This adds a case to lower deref patterns on boxes using a built-in deref instead of a `Deref::deref` or `DerefMut::deref_mut` call: if `deref!(inner): Box<T>` is matching on place `place`, the inner pattern `inner` now matches on `*place` rather than a temporary. No longer needing to call a method also means it won't borrow the scrutinee in match arms. This allows for bindings in `inner` to move out of `*place`.
For comparison with box patterns, this uses the same MIR lowering but different THIR. Consequently, deref patterns on boxes are treated the same as any other deref patterns in match exhaustiveness analysis. Box patterns can't quite be implemented in terms of deref patterns until exhaustiveness checking for deref patterns is implemented (I'll open a PR for exhaustiveness soon!).
Tracking issue: #87121
r? ``@Nadrieril``
Rollup of 7 pull requests
Successful merges:
- #140056 (Fix a wrong error message in 2024 edition)
- #140220 (Fix detection of main function if there are expressions around it)
- #140249 (Remove `weak` alias terminology)
- #140316 (Introduce `BoxMarker` to improve pretty-printing correctness)
- #140347 (ci: clean more disk space in codebuild)
- #140349 (ci: use aws codebuild for the `dist-x86_64-linux` job)
- #140379 (rustc-dev-guide subtree update)
r? `@ghost`
`@rustbot` modify labels: rollup
Async drop codegen
Async drop implementation using templated coroutine for async drop glue generation.
Scopes changes to generate `async_drop_in_place()` awaits, when async droppable objects are out-of-scope in async context.
Implementation details:
https://github.com/azhogin/posts/blob/main/async-drop-impl.md
New fields in Drop terminator (drop & async_fut). Processing in codegen/miri must validate that those fields are empty (in full version async Drop terminator will be expanded at StateTransform pass or reverted to sync version). Changes in terminator visiting to consider possible new successor (drop field).
ResumedAfterDrop messages for panic when coroutine is resumed after it is started to be async drop'ed.
Lang item for generated coroutine for async function async_drop_in_place. `async fn async_drop_in_place<T>()::{{closure0}}`.
Scopes processing for generate async drop preparations. Async drop is a hidden Yield, so potentially async drops require the same dropline preparation as for Yield terminators.
Processing in StateTransform: async drops are expanded into yield-point. Generation of async drop of coroutine itself added.
Shims for AsyncDropGlueCtorShim, AsyncDropGlue and FutureDropPoll.
```rust
#[lang = "async_drop"]
pub trait AsyncDrop {
#[allow(async_fn_in_trait)]
async fn drop(self: Pin<&mut Self>);
}
impl Drop for Foo {
fn drop(&mut self) {
println!("Foo::drop({})", self.my_resource_handle);
}
}
impl AsyncDrop for Foo {
async fn drop(self: Pin<&mut Self>) {
println!("Foo::async drop({})", self.my_resource_handle);
}
}
```
First async drop glue implementation re-worked to use the same drop elaboration code as for sync drop.
`async_drop_in_place` changed to be `async fn`. So both `async_drop_in_place` ctor and produced coroutine have their lang items (`AsyncDropInPlace`/`AsyncDropInPlacePoll`) and shim instances (`AsyncDropGlueCtorShim`/`AsyncDropGlue`).
```
pub async unsafe fn async_drop_in_place<T: ?Sized>(_to_drop: *mut T) {
}
```
AsyncDropGlue shim generation uses `elaborate_drops::elaborate_drop` to produce drop ladder (in the similar way as for sync drop glue) and then `coroutine::StateTransform` to convert function into coroutine poll.
AsyncDropGlue coroutine's layout can't be calculated for generic T, it requires known final dropee type to be generated (in StateTransform). So, `templated coroutine` was introduced here (`templated_coroutine_layout(...)` etc).
Such approach overrides the first implementation using mixing language-level futures in https://github.com/rust-lang/rust/pull/121801.
Introduce `BoxMarker` to improve pretty-printing correctness
Box opening/closing is really easy to get wrong in the pretty-printers. This PR makes it much harder to get wrong.
r? `@Urgau`
Remove `weak` alias terminology
I find the "weak" alias terminology to be quite confusing. It implies the existence of "strong" aliases (which do not exist) and I'm not really sure what about weak aliases is "weak". I much prefer "free alias" as the term. I think it's much more obvious what it means as "free function" is a well defined term that already exists in rust.
It's also a little confusing given "weak alias" is already a term in linker/codegen spaces which are part of the compiler too. Though I'm not particularly worried about that as it's usually very obvious if you're talking about the type system or not lol. I'm also currently trying to write documentation about aliases and it's somewhat awkward/confusing to be talking about *weak* aliases, when I'm not really sure what the basis for that as the term actually *is*.
I would also be happy to just find out there's a nice meaning behind calling them "weak" aliases :-)
r? `@oli-obk`
maybe we want a types MCP to decide on a specific naming here? or maybe we think its just too late to go back on this naming decision ^^'
Implement a lint for implicit autoref of raw pointer dereference - take 2
*[t-lang nomination comment](https://github.com/rust-lang/rust/pull/123239#issuecomment-2727551097)*
This PR aims at implementing a lint for implicit autoref of raw pointer dereference, it is based on #103735 with suggestion and improvements from https://github.com/rust-lang/rust/pull/103735#issuecomment-1370420305.
The goal is to catch cases like this, where the user probably doesn't realise it just created a reference.
```rust
pub struct Test {
data: [u8],
}
pub fn test_len(t: *const Test) -> usize {
unsafe { (*t).data.len() } // this calls <[T]>::len(&self)
}
```
Since #103735 already went 2 times through T-lang, where they T-lang ended-up asking for a more restricted version (which is what this PR does), I would prefer this PR to be reviewed first before re-nominating it for T-lang.
----
Compared to the PR it is as based on, this PR adds 3 restrictions on the outer most expression, which must either be:
1. A deref followed by any non-deref place projection (that intermediate deref will typically be auto-inserted)
2. A method call annotated with `#[rustc_no_implicit_refs]`.
3. A deref followed by a `addr_of!` or `addr_of_mut!`. See bottom of post for details.
There are several points that are not 100% clear to me when implementing the modifications:
- ~~"4. Any number of automatically inserted deref/derefmut calls." I as never able to trigger this. Am I missing something?~~ Fixed
- Are "index" and "field" enough?
----
cc `@JakobDegen` `@WaffleLapkin`
r? `@RalfJung`
try-job: dist-various-1
try-job: dist-various-2
The pretty-printers open and close "boxes" of text a lot. The open and
close operations must be matched. The matching is currently all implicit
and very easy to get wrong. (#140280 and #140246 are two recent
pretty-printing fixes that both involved unclosed boxes.)
This commit introduces `BoxMarker`, a marker type that represents an
open box. It makes box opening/closing explicit, which makes it much
easier to understand and harder to get wrong.
The commit also removes many comments are on `end` calls saying things
like "end outer head-block", "Close the outer-box". These demonstrate
how confusing the implicit approach was, but aren't necessary any more.
Avoid re-interning in `LateContext::get_def_path`
The def path printer in `get_def_path` essentially calls `Symbol::intern(&symbol.to_string())` for simple symbols in a path. This accounts for ~30% of the runtime of get_def_path.
We can avoid this by simply appending the symbol directly when available.
Support for `f16` and `f128` is varied across targets, backends, and
backend versions. Eventually we would like to reach a point where all
backends support these approximately equally, but until then we have to
work around some of these nuances of support being observable.
Introduce the `cfg_target_has_reliable_f16_f128` internal feature, which
provides the following new configuration gates:
* `cfg(target_has_reliable_f16)`
* `cfg(target_has_reliable_f16_math)`
* `cfg(target_has_reliable_f128)`
* `cfg(target_has_reliable_f128_math)`
`reliable_f16` and `reliable_f128` indicate that basic arithmetic for
the type works correctly. The `_math` versions indicate that anything
relying on `libm` works correctly, since sometimes this hits a separate
class of codegen bugs.
These options match configuration set by the build script at [1]. The
logic for LLVM support is duplicated as-is from the same script. There
are a few possible updates that will come as a follow up.
The config introduced here is not planned to ever become stable, it is
only intended to replace the build scripts for `std` tests and
`compiler-builtins` that don't have any way to configure based on the
codegen backend.
MCP: https://github.com/rust-lang/compiler-team/issues/866
Closes: https://github.com/rust-lang/compiler-team/issues/866
[1]: 555e1d0386/library/std/build.rs (L84-L186)
Update lint-docs to default to Rust 2024
This updates the lint-docs tool to default to the 2024 edition. The lint docs are supposed to illustrate the code with the latest edition, and I just forgot to update this in https://github.com/rust-lang/rust/pull/133349.
Some docs needed to add the `edition` attribute since they were assuming a particular edition, but were missing the explicit annotation.
This also includes a commit to simplify the edition handling in lint-docs.
check types of const param defaults
fixes#139643 by checking that the type of a const parameter default matches the type of the parameter as long as both types are fully concrete
r? `@BoxyUwU`
compiletest: Re-land using the new non-libtest executor by default
This PR re-lands #139998, which had the misfortune of triggering download-rustc in its CI jobs, so we didn't get proper test metrics for comparison with the old implementation. So that was PR was reverted in #140233, with the intention of re-landing it alongside a dummy compiler change to inhibit download-rustc.
---
Original PR description for #139998:
>The new executor was implemented in #139660, but required a manual opt-in. This PR activates the new executor by default, but leaves the old libtest-based executor in place (temporarily) to make reverting easier if something unexpectedly goes horribly wrong.
>
>Currently the new executor can be explicitly disabled by passing the `-N` flag to compiletest (e.g. `./x test ui -- -N`), but eventually that flag will be removed, alongside the removal of the libtest dependency. The flag is mostly there to make manual comparative testing easier if something does go wrong.
>
>As before, there *should* be no user-visible difference between the old executor and the new executor.
---
r? jieyouxu
This updates the lint-docs tool to default to the 2024 edition. The lint
docs are supposed to illustrate the code with the latest edition, and I
just forgot to update this in
https://github.com/rust-lang/rust/pull/133349.
Some docs needed to add the `edition` attribute since they were assuming
a particular edition, but were missing the explicit annotation.
The def path printer in `get_def_path` essentially calls
`Symbol::intern(&symbol.to_string())` for simple symbols in a path.
This accounts for ~30% of the runtime of get_def_path.
We can avoid this by simply appending the symbol directly when available.
Simply try to unpeel AsyncFnKindHelper goal in `emit_specialized_closure_kind_error`
Tweak the handling of `AsyncFnKindHelper` goals in `emit_specialized_closure_kind_error` to not be so special-casey, and just try to unpeel one or two layers of obligation causes to get to their underlying `AsyncFn*` goal.
Fixes https://github.com/rust-lang/rust/issues/140292
transmutability: Support char, NonZeroXxx
Note that `NonZero` support is not wired up, as the author encountered
bugs while attempting this. A future commit will wire up `NonZero`
support.
r? ````@jswrenn````
Rollup of 8 pull requests
Successful merges:
- #139865 (Stabilize proc_macro::Span::{start,end,line,column}.)
- #140086 (If creating a temporary directory fails with permission denied then retry with backoff)
- #140216 (Document that "extern blocks must be unsafe" in Rust 2024)
- #140253 (Add XtensaAsmPrinter)
- #140272 (Improve error message for `||` (or) in let chains)
- #140305 (Track per-obligation recursion depth only if there is inference in the new solver)
- #140306 (handle specialization in the new trait solver)
- #140308 (stall generator witness obligations: add regression test)
r? `@ghost`
`@rustbot` modify labels: rollup
Track per-obligation recursion depth only if there is inference in the new solver
Track how many times an obligation has been processed in the fulfillment context by reusing its recursion depth, and only overflow if a singular (root) goal hits the limit.
This also fixes a (probably theoretical at this point) problem where we don't detect pseudo-hangs across `select_where_possible` calls.
fixes https://github.com/rust-lang/trait-system-refactor-initiative/issues/186
r? lcnr
Improve error message for `||` (or) in let chains
**Description**
This PR improves the error message when using `||` in an if let chain expression, addressing #140263.
**Changes**
1. Creates a dedicated error message specifically for `||` usage in let chains
2. Points the primary span directly at the `||` operator
3. Removes confusing secondary notes about "let statements" and unsupported contexts
5. Adds UI tests verifying the new error message and valid cases
**Before**
```rust
error: expected expression, found let statement
--> src/main.rs:2:8
|
2 | if let true = true || false {}
| ^^^^^^^^^^^^^^^
|
= note: only supported directly in conditions of if and while expressions
note: || operators are not supported in let chain expressions
--> src/main.rs:2:24
|
2 | if let true = true || false {}
|
```
**After**
```rust
error: `||` operators are not supported in let chain conditions
--> src/main.rs:2:24
|
2 | if let true = true || false {}
| ^^
```
**Implementation details**
1. Added new `OrInLetChain` diagnostic in errors.rs
2. Modified `CondChecker` in expr.rs to prioritize the `||` error
3. Updated fluent message definitions to use clearer wording
**Related issue**
Fixes#140263
cc ```@ehuss``` (issue author)
