Rollup merge of #98776 - notriddle:notriddle/mobile-sidebar-auto-close, r=GuillaumeGomez
rustdoc: improve click behavior of the source code mobile full-screen "sidebar"
On desktop, if you open the source code sidebar, it stays open even when you move from page to page. It used to do the same thing on mobile, but I think that's stupid. Since the file list fills the entire screen on mobile, and you can't really do anything with the currently selected file other than dismiss the "sidebar" to look at it, it's safe to assume that anybody who clicks a file in that list probably wants the list to go away so they can see it.
Rollup merge of #98624 - davidtwco:translation-on-lints, r=compiler-errors
lints: mostly translatable diagnostics
As lints are created slightly differently than other diagnostics, intended to try make them translatable first and then look into the applicability of diagnostic structs but ended up just making most of the diagnostics in the crate translatable (which will still be useful if I do make a lot of them structs later anyway).
Rollup merge of #97712 - RalfJung:untyped, r=scottmcm
ptr::copy and ptr::swap are doing untyped copies
The consensus in https://github.com/rust-lang/rust/issues/63159 seemed to be that these operations should be "untyped", i.e., they should treat the data as raw bytes, should work when these bytes violate the validity invariant of `T`, and should exactly preserve the initialization state of the bytes that are being copied. This is already somewhat implied by the description of "copying/swapping size*N bytes" (rather than "N instances of `T`").
The implementations mostly already work that way (well, for LLVM's intrinsics the documentation is not precise enough to say what exactly happens to poison, but if this ever gets clarified to something that would *not* perfectly preserve poison, then I strongly assume there will be some way to make a copy that *does* perfectly preserve poison). However, I had to adjust `swap_nonoverlapping`; after ``@scottmcm's`` [recent changes](https://github.com/rust-lang/rust/pull/94212), that one (sometimes) made a typed copy. (Note that `mem::swap`, which works on mutable references, is unchanged. It is documented as "swapping the values at two mutable locations", which to me strongly indicates that it is indeed typed. It is also safe and can rely on `&mut T` pointing to a valid `T` as part of its safety invariant.)
On top of adding a test (that will be run by Miri), this PR then also adjusts the documentation to indeed stably promise the untyped semantics. I assume this means the PR has to go through t-libs (and maybe t-lang?) FCP.
Auto merge of #96862 - oli-obk:enum_cast_mir, r=RalfJung
Change enum->int casts to not go through MIR casts.
follow-up to https://github.com/rust-lang/rust/pull/96814
this simplifies all backends and even gives LLVM more information about the return value of `Rvalue::Discriminant`, enabling optimizations in more cases.
Auto merge of #98910 - Dylan-DPC:rollup-9x82wdg, r=Dylan-DPC
Rollup of 6 pull requests
Successful merges:
- #97300 (Implement `FusedIterator` for `std::net::[Into]Incoming`)
- #98761 (more `need_type_info` improvements)
- #98811 (Interpret: AllocRange Debug impl, and use it more consistently)
- #98847 (fix interpreter validity check on Box)
- #98854 (clean up the borrowing in rustc_hir_pretty)
- #98873 (Suggest `#[derive(Default)]` to enums with `#[default]`)
Auto merge of #98872 - JakobDegen:no-invalidate, r=davidtwco
Add method to mutate MIR body without invalidating CFG caches.
In addition to adding this method, a handful of passes are updated to use it. There's still quite a few passes that could in principle make use of this as well, but do not at the moment because they use `VisitorMut` or `MirPatch`, which needs additional support for this.
The method name is slightly unwieldy, but I don't expect anyone to be writing it a lot, and at least it says what it does. If anyone has a suggestion for a better name though, would be happy to rename.
Auto merge of #98846 - RalfJung:alignment-is-a-type-thing, r=oli-obk
interpret: track place alignment together with the type, not the value
This matches how I handle alignment in [MiniRust](https://github.com/RalfJung/minirust). I think it makes conceptually a lot more sense.
Fixes https://github.com/rust-lang/rust/issues/63085
Rollup merge of #98814 - fmease:minimal-fix-for-issue-97933, r=GuillaumeGomez
rustdoc: Censor certain complex unevaluated const exprs
Fixes #97933.
This is more of a hotfix for the aforementioned issue. By that, I mean that my proposed patch is
not the best solution but one that does not change as much existing code.
It treats symptoms rather than the root cause.
This PR “censors” certain complex unevaluated constant expressions like `match`es, blocks, function calls, struct literals etc. by pretty-printing them as `_` / `{ _ }` (number and string literals, paths and `()` are still printed as one would expect).
Resorting to this placeholder is preferable to printing the full expression verbatim since
they can be quite large and verbose resulting in an unreadable mess in the generated documentation.
Further, mindlessly printing the const would leak private and `doc(hidden)` struct fields (#97933), at least in the current
stable & nightly implementations which rely on `span_to_snippet` (!) and `rustc_hir_pretty::id_to_string`.
The censoring of _verbose_ expressions is probably going to stay longer term.
However, in regards to private and `doc(hidden)` struct fields, I have a more proper fix in mind
which I have already partially implemented locally and for which I am going to open a separate PR sometime soon.
For that, I was already in contact with `@GuillaumeGomez.`
The proper fix involves rustdoc not falling back on pretty-printing unevaluated consts so easily (what this PR is concerned about)
and instead preferring to print evaluated consts which contain more information allowing it to selectively hide private and `doc(hidden)` fields, create hyperlinks etc. generally making the output more granular and precise (compared to the brutal `_` placeholder).
Unfortunately, I was a bit too late and the issue just hit stable (1.62).
Should this be backported to beta or even a potential 1.62.1?
Auto merge of #98627 - RalfJung:interpret-arith, r=lcnr
interpret: don't rely on ScalarPair for overflowed arithmetic
This is for https://github.com/rust-lang/rust/pull/97861.
Cc `@eddyb`
I would like to avoid making this depend on `dest.layout.abi` to avoid a branch that we are not usually covering both sides of. Though OTOH this seems like fairly straight-forward code. But let's benchmark this option first to see how bad that extra `force_allocation` really is.
Auto merge of #98573 - krasimirgg:nlmb-llvm-nm, r=nikic
adapt native-link-modifier-bundle test to use llvm-nm
No functional changes intended.
This updates the test case to use `llvm-nm` as an alternative to https://github.com/rust-lang/rust/pull/98424.
This fixes a test failure over at the experimental build of rustc with HEAD LLVM:
https://buildkite.com/llvm-project/rust-llvm-integrate-prototype/builds/11144#01814d0f-a46a-4c19-91cf-41e720edb6f9/684-691.
The issue is that this test uses the system nm, which may not be recent
enough to understand the bitcode produced by rustc when compiled against HEAD LLVM.
Similar to what we did for another test in https://github.com/rust-lang/rust/pull/94023.
Auto merge of #98817 - the8472:dont-optimize-ui-tests, r=Mark-Simulacrum
Only obey optimize-tests flag on UI tests that are run-pass
stage1 UI tests walltime on my machine:
```
optimize-tests = false, master
25.98s
optimize-tests = true, master
34.69s
optimize-tests = true, patched
28.79s
```
Effects:
- faster UI tests
- llvm asserts get exercised less on build-pass tests
- the difference between opt and nopt builds shrinks a bit
- aux libs don't get optimized since they don't have a pass mode and almost never have explicit compile flags
Auto merge of #98874 - matthiaskrgr:rollup-0u4hm54, r=matthiaskrgr
Rollup of 5 pull requests
Successful merges:
- #98501 (rustc_passes/src/entry.rs: De-duplicate more code with `fn throw_attr_err()`)
- #98774 (rustdoc: make source sidebar toggle a real button)
- #98806 (Fix long declaration trailing whitespace)
- #98823 (Fix rust-call ICE in mir-inliner)
- #98870 (Add regression test for #86784)
Rollup merge of #98774 - notriddle:notriddle/source-code-sidebar-button, r=GuillaumeGomez
rustdoc: make source sidebar toggle a real button
This fixes tab focus, so that you can open and close the sidebar from keyboard.
This should cause no visible change in appearance at all. The only way you'd know anything different is if you tried to use keyboard controls to open the source code file navigation sidebar.
Rollup merge of #98501 - Enselic:err_if_attr_found, r=compiler-errors
rustc_passes/src/entry.rs: De-duplicate more code with `fn throw_attr_err()`
So we can more easily re-use the code for other attributes later. More specifically [`#[unix_sigpipe]`](https://github.com/rust-lang/rust/pull/97802). This refactoring is covered by this test:
https://github.com/rust-lang/rust/blob/8aab472d52ba7314dc193c73abcd384e2586123c/src/test/ui/feature-gates/issue-43106-gating-of-builtin-attrs-error.rs#L120
(Well, only `#[start]`, but the code for `#[rustc_main]` is identical.)
Auto merge of #98731 - InfRandomness:fix-#98728, r=Mark-Simulacrum
Revert #95993 fix
This reverts the temporary fix implemented by https://github.com/rust-lang/rust/pull/95993 since a permanent fix has been implemented by https://github.com/rust-lang/cargo/pull/10594
Don't use match-destructuring for derived ops on structs.
All derive ops currently use match-destructuring to access fields. This
is reasonable for enums, but sub-optimal for structs. E.g.:
```
fn eq(&self, other: &Point) -> bool {
match *other {
Self { x: ref __self_1_0, y: ref __self_1_1 } =>
match *self {
Self { x: ref __self_0_0, y: ref __self_0_1 } =>
(*__self_0_0) == (*__self_1_0) &&
(*__self_0_1) == (*__self_1_1),
},
}
}
```
This commit changes derive ops on structs to use field access instead, e.g.:
```
fn eq(&self, other: &Point) -> bool {
self.x == other.x && self.y == other.y
}
```
This is faster to compile, results in smaller binaries, and is simpler to
generate. Unfortunately, we have to keep the old pattern generating code around
for `repr(packed)` structs because something like `&self.x` (which doesn't show
up in `PartialEq` ops, but does show up in `Debug` and `Hash` ops) isn't
allowed. But this commit at least changes those cases to use let-destructuring
instead of match-destructuring, e.g.:
```
fn hash<__H: ::core::hash::Hasher>(&self, state: &mut __H) -> () {
{
let Self(ref __self_0_0) = *self;
{ ::core::hash::Hash::hash(&(*__self_0_0), state) }
}
}
```
There are some unnecessary blocks remaining in the generated code, but I
will fix them in a follow-up PR.
Auto merge of #98864 - RalfJung:rollup-ptzklyc, r=RalfJung
Rollup of 4 pull requests
Successful merges:
- #94831 (Link to stabilization section in std-dev-guide for library tracking issue template)
- #98764 (add Miri to the nightly docs)
- #98773 (rustdoc: use <details> tag for the source code sidebar)
- #98799 (Fix bug in `rustdoc -Whelp`)
Rollup merge of #98799 - jyn514:rustdoc-lint-help, r=GuillaumeGomez
Fix bug in `rustdoc -Whelp`
Previously, this printed the debugging options, not the lint options,
and only handled `-Whelp`, not `-A/-D/-F`.
This also fixes a few other misc issues:
- Fix `// check-stdout` for UI tests; previously it only worked for run-fail and compile-fail tests
- Add lint headers for tool lints, not just builtin lints
Rollup merge of #98773 - notriddle:notriddle/source-sidebar-details, r=GuillaumeGomez
rustdoc: use <details> tag for the source code sidebar
This fixes the extremely poor accessibility of the old system, making it possible to navigate the sidebar by keyboard, and also implicitly gives the sidebar items the correct ARIA roles.
Auto merge of #98439 - ehuss:cleanup-ci-script, r=Mark-Simulacrum
Clean up submodule checkout scripts
This is just some small cleanup:
* Removed unused CACHE_DIR stuff
* Removed duplicate fetch_github_commit_archive function which is no longer used
* Combined init_repo.sh and checkout-submodules.sh, as checkout-submodules.sh was doing nothing but calling init_repo.sh
In particular, this leads to lots of "multiple applicable items in scope" errors because you have to disambiguate `MyTrait::as_raw_fd` from `AsRawFd::as_raw_fd` at each call site. In generic contexts, when passing the type to a function that takes `impl AsRawFd` it's also sometimes required to use `T: MyTrait + AsRawFd`, which wouldn't be necessary if I could write `MyTrait: AsRawFd`.
After this PR, the code can be simpler:
```rust
trait MyTrait: AsRawFd {}
Auto merge of #98755 - nnethercote:faster-vec-insert, r=cuviper
Optimize `Vec::insert` for the case where `index == len`.
By skipping the call to `copy` with a zero length. This makes it closer
to `push`.
I did this recently for `SmallVec`
(https://github.com/servo/rust-smallvec/pull/282) and it was a big perf win in
one case. Although I don't have a specific use case in mind, it seems
worth doing it for `Vec` as well.
Things to note:
- In the `index < len` case, the number of conditions checked is
unchanged.
- In the `index == len` case, the number of conditions checked increases
by one, but the more expensive zero-length copy is avoided.
- In the `index > len` case the code now reserves space for the extra
element before panicking. This seems like an unimportant change.
Auto merge of #98570 - SparrowLii:deadlock, r=cjgillot
get rid of `tcx` in deadlock handler when parallel compilation
This is a very obscure and hard-to-trace problem that affects thread scheduling. If we copy `tcx` to the deadlock handler thread, it will perform unpredictable behavior and cause very weird problems when executing `try_collect_active_jobs`(For example, the deadlock handler thread suddenly preempts the content of the blocked worker thread and executes the unknown judgment branch, like #94654).
Fortunately we can avoid this behavior by precomputing `query_map`. This change fixes the following ui tests failure on my environment when set `parallel-compiler = true`:
```
[ui] src/test\ui\async-await\no-const-async.rs
[ui] src/test\ui\infinite\infinite-struct.rs
[ui] src/test\ui\infinite\infinite-tag-type-recursion.rs
[ui] src/test\ui\issues\issue-3008-1.rs
[ui] src/test\ui\issues\issue-3008-2.rs
[ui] src/test\ui\issues\issue-32326.rs
[ui] src/test\ui\issues\issue-57271.rs
[ui] src/test\ui\issues\issue-72554.rs
[ui] src/test\ui\parser\fn-header-semantic-fail.rs
[ui] src/test\ui\union\union-nonrepresentable.rs
```
Auto merge of #98820 - RalfJung:rollup-i3mip9a, r=RalfJung
Rollup of 6 pull requests
Successful merges:
- #98701 (Add regression test for #50439)
- #98715 (add ice test for #97047)
- #98753 (Fix `x dist rust-dev` on a fresh checkout)
- #98805 (Add #95469 to the release notes)
- #98812 (feat: Add a documentation problem issue template)
- #98819 (update Miri)
The 8472 [Sat, 2 Jul 2022 18:50:55 +0000 (20:50 +0200)]
Only obey optimize-tests flag on UI tests that are run-pass
```
optimize-tests = false, master
25.98s
optimize-tests = true, master
34.69s
optimize-tests = true, patched
28.79s
```
Effects:
- faster UI tests
- llvm asserts get exercised less on build-pass tests
- the difference between opt and nopt builds shrinks a bit
- aux libs don't get optimized since they don't have a pass mode and almost never have explicit compile flags
Auto merge of #97585 - lqd:const-alloc-intern, r=RalfJung
CTFE interning: don't walk allocations that don't need it
The interning of const allocations visits the mplace looking for references to intern. Walking big aggregates like big static arrays can be costly, so we only do it if the allocation we're interning contains references or interior mutability.
Walking ZSTs was avoided before, and this optimization is now applied to cases where there are no references/relocations either.
---
While initially looking at this in the context of #93215, I've been testing with smaller allocations than the 16GB one in that issue, and with different init/uninit patterns (esp. via padding).
In that example, by default, `eval_to_allocation_raw` is the heaviest query followed by `incr_comp_serialize_result_cache`. So I'll show numbers when incremental compilation is disabled, to focus on the const allocations themselves at 95% of the compilation time, at bigger array sizes on these minimal examples like `static ARRAY: [u64; LEN] = [0; LEN];`.
That is a close construction to parts of the `ctfe-stress-test-5` benchmark, which has const allocations in the megabytes, while most crates usually have way smaller ones. This PR will have the most impact in these situations, as the walk during the interning starts to dominate the runtime.
Unicode crates (some of which are present in our benchmarks) like `ucd`, `encoding_rs`, etc come to mind as having bigger than usual allocations as well, because of big tables of code points (in the hundreds of KB, so still an order of magnitude or 2 less than the stress test).
In a check build, for a single static array shown above, from 100 to 10^9 u64s (for lengths in powers of ten), the constant factors are lowered:
(log scales for easier comparisons)
![plot_log](https://user-images.githubusercontent.com/247183/171422958-16f1ea19-3ed4-4643-812c-1c7c60a97e19.png)
(linear scale for absolute diff at higher Ns)
![plot_linear](https://user-images.githubusercontent.com/247183/171401886-2a869a4d-5cd5-47d3-9a5f-8ce34b7a6917.png)
For one of the alternatives of that issue
```rust
const ROWS: usize = 100_000;
const COLS: usize = 10_000;
static TWODARRAY: [[(u64, u8); COLS]; ROWS] = [[(0, 0); COLS]; ROWS];
```
then interning/walking does not dominate anymore (but means there is likely still some interesting work left to do here).
Compile times in this case rise up quite a bit, and avoiding interning walks has less impact: around 23%, from 730s on master to 568s with this PR.