Update tests to remove old numeric constants
Part of #68490.
Care has been taken to leave the old consts where appropriate, for testing backcompat regressions, module shadowing, etc. The intrinsics docs were accidentally referring to some methods on f64 as std::f64, which I changed due to being contrary with how we normally disambiguate the shadow module from the primitive. In one other place I changed std::u8 to std::ops since it was just testing path handling in macros.
For places which have legitimate uses of the old consts, deprecated attributes have been optimistically inserted. Although currently unnecessary, they exist to emphasize to any future deprecation effort the necessity of these specific symbols and prevent them from being accidentally removed.
Don't run `resolve_vars_if_possible` in `normalize_erasing_regions`
Neither `@eddyb` nor I could figure out what this was for. I changed it to `assert_eq!(normalized_value, infcx.resolve_vars_if_possible(&normalized_value));` and it passed the UI test suite.
<details><summary>
Outdated, I figured out the issue - `needs_infer()` needs to come _after_ erasing the lifetimes
</summary>
Strangely, if I change it to `assert!(!normalized_value.needs_infer())` it panics almost immediately:
```
query stack during panic:
#0 [normalize_generic_arg_after_erasing_regions] normalizing `<str::IsWhitespace as str::pattern::Pattern>::Searcher`
#1 [needs_drop_raw] computing whether `str::iter::Split<str::IsWhitespace>` needs drop
#2 [mir_built] building MIR for `str::<impl str>::split_whitespace`
#3 [unsafety_check_result] unsafety-checking `str::<impl str>::split_whitespace`
#4 [mir_const] processing MIR for `str::<impl str>::split_whitespace`
#5 [mir_promoted] processing `str::<impl str>::split_whitespace`
#6 [mir_borrowck] borrow-checking `str::<impl str>::split_whitespace`
#7 [analysis] running analysis passes on this crate
end of query stack
```
I'm not entirely sure what's going on - maybe the two disagree?
</details>
For context, this came up while reviewing https://github.com/rust-lang/rust/pull/77467/ (cc `@lcnr).`
Possibly this needs a crater run?
r? `@nikomatsakis`
cc `@matthewjasper`
Support repr(simd) on ADTs containing a single array field
This is a squash and rebase of `@gnzlbg's` #63531
I've never actually written code in the compiler before so just fumbled my way around until it would build 😅
I imagine there'll be some work we need to do in `rustc_codegen_cranelift` too for this now, but might need some input from `@bjorn3` to know what that is.
cc `@rust-lang/project-portable-simd`
-----
This PR allows using `#[repr(simd)]` on ADTs containing a single array field:
```rust
#[repr(simd)] struct S0([f32; 4]);
#[repr(simd)] struct S1<const N: usize>([f32; N]);
#[repr(simd)] struct S2<T, const N: usize>([T; N]);
```
This should allow experimenting with portable packed SIMD abstractions on nightly that make use of const generics.
Remove doctree::Macro and distinguish between `macro_rules!` and `pub macro`
This is a part of #78082, removing doctree::Macro. Uses the changes in #79372Fixes#76761
Part of #68490.
Care has been taken to leave the old consts where appropriate, for testing backcompat regressions, module shadowing, etc. The intrinsics docs were accidentally referring to some methods on f64 as std::f64, which I changed due to being contrary with how we normally disambiguate the shadow module from the primitive. In one other place I changed std::u8 to std::ops since it was just testing path handling in macros.
For places which have legitimate uses of the old consts, deprecated attributes have been optimistically inserted. Although currently unnecessary, they exist to emphasize to any future deprecation effort the necessity of these specific symbols and prevent them from being accidentally removed.
add enable-full-tools to freebsd builds to prevent occasional link er…
On FreeBSD, there is sometimes an issue where linking a rust program will fail due to rust not finding a linker, even though lld is included in the base system. This seems to mostly affect bare metal/cross compilation things, such as wasm builds and arm/riscv bare metal work (eg. when trying to compile [this](https://github.com/quantumscraps/scraps)). On Linux and other operating systems, full tools are enabled for builds of rust, so there are no linking issues. This pr should enable fully functional builds on FreeBSD, assuming rust builds correctly with these options.
Extend doc keyword feature by allowing any ident
Part of #51315.
As suggested by ``@danielhenrymantilla`` in [this comment](https://github.com/rust-lang/rust/issues/51315#issuecomment-733879934), this PR extends `#[doc(keyword = "...")]` to allow any ident to be used as keyword. The final goal is to allow (proc-)macro crates' owners to write documentation of the keywords they might introduce.
r? ``@jyn514``
Improve rustdoc JS tests error output
It's pretty common when starting to add new tests for rustdoc-js to have issues to understand the errors. With this, it should make things a bit simpler. So now, in case of an error, it displays:
```
---- [js-doc-test] rustdoc-js/basic.rs stdout ----
error: rustdoc-js test failed!
failed to decode compiler output as json: line: {
output: Checking "basic" ... FAILED
==> Result not found in 'others': '{"path":"basic","name":"Fo"}'
Diff of first error:
{
"path": "basic",
- "name": "Fo",
+ "name": "Foo",
}
thread '[js-doc-test] rustdoc-js/basic.rs' panicked at 'explicit panic', src/tools/compiletest/src/json.rs:126:21
```
I think it was ``@camelid`` who asked about it a few days ago?
r? ``@jyn514``
BTreeMap: try to enhance various comments
All in internal documentation, propagating the "key-value pair" notation from public documentation.
r? ``@Mark-Simulacrum``
Rename "stability" CSS class to "item-info" and combine `document_stability` with `document_short`
Follow-up of #79300
The point of this PR is to make the CSS class more accurate since it's not only about stability anymore.
r? ``@jyn514``
Require allocator to be static for boxed `Pin`-API
Allocators has to retain their validity until the instance and all of its clones are dropped. When pinning a value, it must live forever, thus, the allocator requires a `'static` lifetime for pinning a value. [Example from reddit](https://www.reddit.com/r/rust/comments/jymzdw/the_story_continues_vec_now_supports_custom/gd7qak2?utm_source=share&utm_medium=web2x&context=3):
```rust
let alloc = MyAlloc(/* ... */);
let pinned = Box::pin_in(42, alloc);
mem::forget(pinned); // Now `value` must live forever
// Otherwise `Pin`'s invariants are violated, storage invalidated
// before Drop was called.
// borrow of `memory` can end here, there is no value keeping it.
drop(alloc); // Oh, value doesn't live forever.
```
Sync rustc_codegen_cranelift
This implements a few extra simd intrinsics, fixes yet another 128bit bug and updates a few dependencies. It also fixes an cg_clif subtree update that did compile, but that caused a panic when compiling libcore. Other than that this is mostly cleanups.
`@rustbot` modify labels: +A-codegen +A-cranelift +T-compiler
Convert UNC path to local path to satisfy install script on Windows
`mkdir` with the `-p` flag attempts to create `//?` if passed a UNC path. This fails on both MSYS2 and Git Bash.
The UNC paths come from [canonicalizing](32da90b431/src/bootstrap/install.rs (L79)) the install prefix path. `mkdir -p` gets invoked on the [install script](d66f476b4d/install-template.sh (L149)).
Resolve typedefs in HashMap gdb/lldb pretty-printers
`GetTypedefedType` (LLDB) and `strip_typedefs` (GDB) calls are needed to resolve key and value types completely.
Without these calls, debugger doesn't show the actual type.
**Before** (without `GetTypedefedType`):
```
(lldb) frame variable hm[0]
(T) hm[0] = { ... }
```
**After** (with `GetTypedefedType`):
```
(lldb) frame variable hm[0]
((i32, alloc::string::String)) hm[0] = { ... }
```
Based on https://github.com/intellij-rust/intellij-rust/pull/6258
rustc_parse: fix ConstBlock expr span
The span for a ConstBlock expression should presumably run through the end of the block it contains and not stop at the keyword, just like is done with similar block-containing expression kinds, such as a TryBlock