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[perf] `GenericArgs`-related: Change asserts to debug asserts & use more slice interning over iterable interning
1. The 1st commit yields the following perf gains: [#142289 (comment)](https://github.com/rust-lang/rust/pull/142289#issuecomment-2964041303).
2. The 2nd commit might also have a minor positive perf impact, however that one wasn't tested in isolation.
For reference, the initial approach https://github.com/rust-lang/rust/commit/c7e6accd79d91fe5dec01a81499a08f9db280440 (results: https://github.com/rust-lang/rust/pull/142289#issuecomment-2961076587) had a lot more changes (apart from what's now contained in commit 1 and 2) which seemed to be perf irrelevant (cf. the partial countercheck in https://github.com/rust-lang/rust/commit/6f82bf1cfece61d32714fbfeecf8c5cf1356b3ae (results: https://github.com/rust-lang/rust/pull/142289#issuecomment-2968393647).
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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- It is bound to go out-of-date as it is in a very different place from where we actually define which functions support varagrs (`fn supports_varargs`).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``
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Temporary lifetime extension through tuple struct and tuple variant constructors
This makes temporary lifetime extension work for tuple struct and tuple variant constructors, such as `Some()`.
Before:
```rust
let a = &temp(); // Extended
let a = Some(&temp()); // Not extended :(
let a = Some { 0: &temp() }; // Extended
```
After:
```rust
let a = &temp(); // Extended
let a = Some(&temp()); // Extended
let a = Some { 0: &temp() }; // Extended
```
So, with this change, this works:
```rust
let a = Some(&String::from("hello")); // New: String lifetime now extended!
println!("{a:?}");
```
Until now, we did not extend through tuple struct/variant constructors (like `Some`), because they are function calls syntactically, and we do not want to extend the String lifetime in:
```rust
let a = some_function(&String::from("hello")); // String not extended!
```
However, it turns out to be very easy to distinguish between regular functions and constructors at the point where we do lifetime extension.
In practice, constructors nearly always use UpperCamelCase while regular functions use lower_snake_case, so it should still be easy to for a human programmer at the call site to see whether something qualifies for lifetime extension or not.
This needs a lang fcp.
---
More examples of what will work after this change:
```rust
let x = Person {
name: "Ferris",
job: Some(&Job { // `Job` now extended!
title: "Chief Rustacean",
organisation: "Acme Ltd.",
}),
};
dbg!(x);
```
```rust
let file = if use_stdout {
None
} else {
Some(&File::create("asdf")?) // `File` now extended!
};
set_logger(file);
```
```rust
use std::path::Component;
let c = Component::Normal(&OsString::from(format!("test-{num}"))); // OsString now extended!
assert_eq!(path.components.first().unwrap(), c);
```
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Delay replacing escaping bound vars in `FindParamInClause`
By uplifting the `BoundVarReplacer`, which is used by (e.g.) normalization to replace escaping bound vars that are encountered when folding binders, we can use a similar strategy to delay the instantiation of a binder's contents in the `FindParamInClause` used by the new trait solver.
This should alleviate the recently added requirement that `Binder<T>: TypeVisitable` only if `T: TypeFoldable`, which was previously required b/c we were calling `enter_forall` so that we could structurally normalize aliases that we found within the predicates of a param-env clause.
r? lcnr
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Rollup of 9 pull requests
Successful merges:
- rust-lang/rust#128425 (Make `missing_fragment_specifier` an unconditional error)
- rust-lang/rust#135927 (retpoline and retpoline-external-thunk flags (target modifiers) to enable retpoline-related target features)
- rust-lang/rust#140770 (add `extern "custom"` functions)
- rust-lang/rust#142176 (tests: Split dont-shuffle-bswaps along opt-levels and arches)
- rust-lang/rust#142248 (Add supported asm types for LoongArch32)
- rust-lang/rust#142267 (assert more in release in `rustc_ast_lowering`)
- rust-lang/rust#142274 (Update the stdarch submodule)
- rust-lang/rust#142276 (Update dependencies in `library/Cargo.lock`)
- rust-lang/rust#142308 (Upgrade `object`, `addr2line`, and `unwinding` in the standard library)
Failed merges:
- rust-lang/rust#140920 (Extract some shared code from codegen backend target feature handling)
r? `@ghost`
`@rustbot` modify labels: rollup
try-job: aarch64-apple
try-job: x86_64-msvc-1
try-job: x86_64-gnu
try-job: dist-i586-gnu-i586-i686-musl
try-job: test-various
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add `extern "custom"` functions
tracking issue: rust-lang/rust#140829
previous discussion: https://github.com/rust-lang/rust/issues/140566
In short, an `extern "custom"` function is a function with a custom ABI, that rust does not know about. Therefore, such functions can only be defined with `#[unsafe(naked)]` and `naked_asm!`, or via an `extern "C" { /* ... */ }` block. These functions cannot be called using normal rust syntax: calling them can only be done from inline assembly.
The motivation is low-level scenarios where a custom calling convention is used. Currently, we often pick `extern "C"`, but that is a lie because the function does not actually respect the C calling convention.
At the moment `"custom"` seems to be the name with the most support. That name is not final, but we need to pick something to actually implement this.
r? `@traviscross`
cc `@tgross35`
try-job: x86_64-apple-2
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intrinsics: rename min_align_of to align_of
Now that `pref_align_of` is gone (https://github.com/rust-lang/rust/pull/141803), we can give the intrinsic backing `align_of` its proper name.
r? `@workingjubilee` or `@bjorn3`
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Rollup of 9 pull requests
Successful merges:
- rust-lang/rust#134536 (Lint on fn pointers comparisons in external macros)
- rust-lang/rust#141069 (Suggest mut when possbile for temporary value dropped while borrowed)
- rust-lang/rust#141934 (resolve: Tweak `private_macro_use` lint to be compatible with upcoming macro prelude changes)
- rust-lang/rust#142034 (Detect method not being present that is present in other tuple types)
- rust-lang/rust#142402 (chore(doctest): Remove redundant blank lines)
- rust-lang/rust#142406 (Note when enum variants shadow an associated function)
- rust-lang/rust#142407 (Remove bootstrap adhoc group)
- rust-lang/rust#142408 (Add myself (WaffleLapkin) to review rotation)
- rust-lang/rust#142418 (Remove lower_arg_ty as all callers were passing `None`)
r? `@ghost`
`@rustbot` modify labels: rollup
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lint on duplicates during attribute parsing
To do this we stuff them in the diagnostic context to be emitted after
hir is constructed
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`FIXME(-Znext-solver)` triage
r? `@BoxyUwU`
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Co-authored-by: Ralf Jung <post@ralfj.de>
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r=workingjubilee
Add (back) `unsupported_calling_conventions` lint to reject more invalid calling conventions
This adds back the `unsupported_calling_conventions` lint that was removed in https://github.com/rust-lang/rust/pull/129935, in order to start the process of dealing with https://github.com/rust-lang/rust/issues/137018. Specifically, we are going for the plan laid out [here](https://github.com/rust-lang/rust/issues/137018#issuecomment-2672118326):
- thiscall, stdcall, fastcall, cdecl should only be accepted on x86-32
- vectorcall should only be accepted on x86-32 and x86-64
The difference to the status quo is that:
- We stop accepting stdcall, fastcall on targets that are windows && non-x86-32 (we already don't accept these on targets that are non-windows && non-x86-32)
- We stop accepting cdecl on targets that are non-x86-32
- (There is no difference for thiscall, this was already a hard error on non-x86-32)
- We stop accepting vectorcall on targets that are windows && non-x86-*
Vectorcall is an unstable ABI so we can just make this a hard error immediately. The others are stable, so we emit the `unsupported_calling_conventions` forward-compat lint. I set up the lint to show up in dependencies via cargo's future-compat report immediately, but we could also make it show up just for the local crate first if that is preferred.
try-job: i686-msvc-1
try-job: x86_64-msvc-1
try-job: test-various
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Atomic intrinsics : use const generic ordering, part 2
This completes what got started in https://github.com/rust-lang/rust/pull/141507 by using a const generic for the ordering for all intrinsics. It is based on that PR; only the last commit is new.
Blocked on:
- https://github.com/rust-lang/rust/pull/141507
- https://github.com/rust-lang/rust/pull/141687
- https://github.com/rust-lang/stdarch/pull/1811
- https://github.com/rust-lang/rust/pull/141964
r? `@bjorn3`
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calling conventions
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Remove CollectItemTypesVisitor
I always felt like we were very unnecessarily walking the HIR, let's see if perf agrees
There is lots to ~~improve~~ consolidate further here, as we still have 3 item wfchecks:
* check_item (matching on the hir::ItemKind)
* actually doing trait solver based checks (by using HIR spans)
* lower_item (matching on the hir::ItemKind after loading it again??)
* just ensure_ok-ing a bunch of queries
* check_item_type (matching on DefKind)
* some type based checks, mostly ensure_ok-ing a bunch of queries
fixes rust-lang/rust#121429
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Move coroutine_by_move_body_def_id into the big check_crate body owner loop
This avoids starting a parallel loop in sequence and instead runs all the queries for a specific DefId together.
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Update `InterpCx::project_field` to take `FieldIdx`
As suggested by Ralf in https://github.com/rust-lang/rust/pull/142005#discussion_r2125839015
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Verbose suggestion to make param `const`
```
error[E0747]: type provided when a constant was expected
--> $DIR/invalid-const-arguments.rs:10:19
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LL | impl<N> Foo for B<N> {}
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help: consider changing this type parameter to a const parameter
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LL - impl<N> Foo for B<N> {}
LL + impl<const N: u8> Foo for B<N> {}
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```
Part of rust-lang/rust#141973.
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As suggested by Ralf in 142005.
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the opaqe type itself
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```
error[E0747]: type provided when a constant was expected
--> $DIR/invalid-const-arguments.rs:10:19
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LL | impl<N> Foo for B<N> {}
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help: consider changing this type parameter to a const parameter
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LL - impl<N> Foo for B<N> {}
LL + impl<const N: u8> Foo for B<N> {}
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```
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Co-authored-by: Michael Goulet <michael@errs.io>
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`slice.get(i)` should use a slice projection in MIR, like `slice[i]` does
`slice[i]` is built-in magic, so ends up being quite different from `slice.get(i)` in MIR, even though they're both doing nearly identical operations -- checking the length of the slice then getting a ref/ptr to the element if it's in-bounds.
This PR adds a `slice_get_unchecked` intrinsic for `impl SliceIndex for usize` to use to fix that, so it no longer needs to do a bunch of lines of pointer math and instead just gets the obvious single statement. (This is *not* used for the range versions, since `slice[i..]` and `slice[..k]` can't use the mir Slice projection as they're using fenceposts, not indices.)
I originally tried to do this with some kind of GVN pattern, but realized that I'm pretty sure it's not legal to optimize `BinOp::Offset` to `PlaceElem::Index` without an extremely complicated condition. Basically, the problem is that the `Index` projection on a dereferenced slice pointer *cares about the metadata*, since it's UB to `PlaceElem::Index` outside the range described by the metadata. But then you cast the fat pointer to a thin pointer then offset it, that *ignores* the slice length metadata, so it's possible to write things that are legal with `Offset` but would be UB if translated in the obvious way to `Index`. Checking (or even determining) the necessary conditions for that would be complicated and error-prone, whereas this intrinsic-based approach is quite straight-forward.
Zero backend changes, because it just lowers to MIR, so it's already supported naturally by CTFE/Miri/cg_llvm/cg_clif.
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Hir item kind field order
A follow-up to rust-lang/rust#141675.
r? `@fee1-dead`
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atomic_load intrinsic: use const generic parameter for ordering
We have a gazillion intrinsics for the atomics because we encode the ordering into the intrinsic name rather than making it a parameter. This is particularly bad for those operations that take two orderings. Let's fix that!
This PR only converts `load`, to see if there's any feedback that would fundamentally change the strategy we pursue for the const generic intrinsics.
The first two commits are preparation and could be a separate PR if you prefer.
`@BoxyUwU` -- I hope this is a use of const generics that is unlikely to explode? All we need is a const generic of enum type. We could funnel it through an integer if we had to but an enum is obviously nicer...
`@bjorn3` it seems like the cranelift backend entirely ignores the ordering?
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Specifically `TyAlias`, `Enum`, `Struct`, `Union`. So the fields match
the textual order in the source code.
The interesting part of the change is in
`compiler/rustc_hir/src/hir.rs`. The rest is extremely mechanical
refactoring.
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Rollup of 4 pull requests
Successful merges:
- rust-lang/rust#138285 (Stabilize `repr128`)
- rust-lang/rust#139994 (add `CStr::display`)
- rust-lang/rust#141571 (coretests: extend and simplify float tests)
- rust-lang/rust#141656 (CI: Add cargo tests to aarch64-apple-darwin)
Failed merges:
- rust-lang/rust#141430 (remove `visit_clobber` and move `DummyAstNode` to `rustc_expand`)
- rust-lang/rust#141636 (avoid some usages of `&mut P<T>` in AST visitors)
r? `@ghost`
`@rustbot` modify labels: rollup
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