add test ensuring simd codegen checks don't run when a static assertion failed
stdarch relies on this to ensure that SIMD indices are in bounds.
I would love to know why this works, but I can't figure out where codegen decides to not codegen a function if a required-const does not evaluate. `@oli-obk` `@bjorn3` do you have any idea?
rustdoc-search: depth limit `T<U>` -> `U` unboxing
Profiler output:
https://notriddle.com/rustdoc-html-demo-9/search-unbox-limit/ (the only significant change is that one of the `rust` tests went from 378416ms to 16ms).
This is a performance enhancement aimed at a problem I found while using type-driven search on the Rust compiler. It is caused by [`Interner`], a trait with 41 associated types, many of which recurse back to `Self` again.
This caused search.js to struggle. It eventually terminates, after about 10 minutes of turning my PC into a space header, but it's doing `41!` unifications and that's too slow.
[`Interner`]: https://doc.rust-lang.org/nightly/nightly-rustc/rustc_middle/ty/trait.Interner.html
Document some builtin impls in the next solver
This does not cover all builtin impls, but ones that I were able to go over within a cycle.
r? `@lcnr`
Let me know if the place isn't correct for these, or if you'd like me to change how the impls are presented ^^
Avoid closing invalid handles
Documentation for [`HandleOrInvalid`] has this note:
> If holds a handle other than `INVALID_HANDLE_VALUE`, it will close the handle on drop.
Documentation for [`HandleOrNull`] has this note:
> If this holds a non-null handle, it will close the handle on drop.
Currently, both will call `CloseHandle` on their invalid handles as a result of using `OwnedHandle` internally, contradicting the above paragraphs. This PR adds destructors that match the documentation.
```@rustbot``` label A-io O-windows T-libs
[`HandleOrInvalid`]: https://doc.rust-lang.org/std/os/windows/io/struct.HandleOrInvalid.html
[`HandleOrNull`]: https://doc.rust-lang.org/std/os/windows/io/struct.HandleOrNull.html
Rollup of 9 pull requests
Successful merges:
- #104353 (Add CStr::bytes iterator)
- #119676 (rustdoc-search: search types by higher-order functions)
- #120699 (Document `TRACK_DIAGNOSTIC` calls.)
- #121899 (Document how removing a type's field can be bad and what to do instead)
- #122405 (Add methods to create StableMIR constant)
- #122416 (Various style improvements to `rustc_lint::levels`)
- #122421 (Improve `Step` docs)
- #122440 (const-eval: organize and extend tests for required-consts)
- #122461 (fix unsoundness in Step::forward_unchecked for signed integers)
Failed merges:
- #122397 (Various cleanups around the const eval query providers)
r? `@ghost`
`@rustbot` modify labels: rollup
fix unsoundness in Step::forward_unchecked for signed integers
Fixes#122420
```rust
pub fn foo(a: i8, b: u8) -> i8 {
unsafe { a.checked_add_unsigned(b).unwrap_unchecked() }
}
```
still compiles down to a single arithmetic instruction ([godbolt](https://rust.godbolt.org/z/qsd3xYWfE)).
But we may be losing some loop optimizations if llvm can no longer easily derive that it's a finite counted loop from the no-wrapping flags.
const-eval: organize and extend tests for required-consts
This includes some tests that are known-broken and hence disabled (due to https://github.com/rust-lang/rust/issues/107503).
r? `````@oli-obk`````
Improve `Step` docs
It [came up on urlo](https://users.rust-lang.org/t/implement-trait-step-in-1-76-0/108204?u=cad97) that the unstable reason string isn't helpful, so just remove it; there's nothing meaningful to add here.
Also makes a couple drive-by improvements to the method docs -- removes incorrect references, changes `forward_checked`'s invariant formulation to match `backward_checked`'s, and adds a helpful corollary that `step_unchecked(a, 0)` is always safe.
Various style improvements to `rustc_lint::levels`
While reading this file, I noticed a few opportunities to make things a little nicer:
- Replace some nested if-let with let-chains
- Tweak a match pattern to allow shorthand struct syntax
- Fuse an `is_empty` check with getting the last element
- Merge some common code that emits `MalformedAttribute` and continues
- Format `"{tool}::{name}"` in a way that's consistent with other match arms
- Replace if-let-else-panic with let-else
- Use early-exit to flatten a method body
Some of these changes cause indentation churn, so ignoring whitespace is recommended.
Add methods to create StableMIR constant
I've been experimenting with transforming the StableMIR to instrument the code with potential UB checks.
The modified body will only be used by our analysis tool, however, constants in StableMIR must be backed by rustc constants. Thus, I'm adding a few functions to build constants, such as building string and other primitives.
One question I have is whether we should create a global allocation instead for strings.
r? ``````@oli-obk``````
rustdoc-search: search types by higher-order functions
This feature extends rustdoc with syntax and search index information for searching function pointers and closures (Higher-Order Functions, or HOF). Part of https://github.com/rust-lang/rust/issues/60485
This PR adds two syntaxes: a high-level one for finding any kind of HOF, and a direct implementation of the parenthesized path syntax that Rust itself uses.
## Preview pages
| Query | Results |
|-------|---------|
| [`option<T>, (fnonce (T) -> bool) -> option<T>`][optionfilter] | `Option::filter` |
| [`option<T>, (T -> bool) -> option<T>`][optionfilter2] | `Option::filter` |
Updated chapter of the book: https://notriddle.com/rustdoc-html-demo-9/search-hof/rustdoc/read-documentation/search.html
[optionfilter]: https://notriddle.com/rustdoc-html-demo-9/search-hof/std/vec/struct.Vec.html?search=option<T>%2C+(fnonce+(T)+->+bool)+->+option<T>&filter-crate=std
[optionfilter2]: https://notriddle.com/rustdoc-html-demo-9/search-hof/std/vec/struct.Vec.html?search=option<T>%2C+(T+->+bool)+->+option<T>&filter-crate=std
## Motivation
When type-based search was first landed, it was directly [described as incomplete][a comment].
[a comment]: https://github.com/rust-lang/rust/pull/23289#issuecomment-79437386
Filling out the missing functionality is going to mean adding support for more of Rust's [type expression] syntax, such as references, raw pointers, function pointers, and closures. This PR adds function pointers and closures.
[type expression]: https://doc.rust-lang.org/reference/types.html#type-expressions
There's been demand for something "like Hoogle, but for Rust" expressed a few times [1](https://www.reddit.com/r/rust/comments/y8sbid/is_there_a_website_like_haskells_hoogle_for_rust/) [2](https://users.rust-lang.org/t/rust-equivalent-of-haskells-hoogle/102280) [3](https://internals.rust-lang.org/t/std-library-inclusion-policy/6852/2) [4](https://discord.com/channels/442252698964721669/448238009733742612/1109502307495858216). Some of them just don't realize what functionality already exists ([`Duration -> u64`](https://doc.rust-lang.org/nightly/std/?search=duration%20-%3E%20u64) already works), but a lot of them specifically want to search for higher-order functions like option combinators.
## Guide-level explanation (from the Rustdoc book)
To search for a function that accepts a function as a parameter, like `Iterator::all`, wrap the nested signature in parenthesis, as in [`Iterator<T>, (T -> bool) -> bool`][iterator-all]. You can also search for a specific closure trait, such as `Iterator<T>, (FnMut(T) -> bool) -> bool`, but you need to know which one you want.
[iterator-all]: https://notriddle.com/rustdoc-html-demo-9/search-hof/std/vec/struct.Vec.html?search=Iterator<T>%2C+(T+->+bool)+->+bool&filter-crate=std
## Reference-level description (also from the Rustdoc book)
### Primitives with Special Syntax
<table>
<thead>
<tr>
<th>Shorthand</th>
<th>Explicit names</th>
</tr>
</thead>
<tbody>
<tr><td colspan="2">Before this PR</td></tr>
<tr>
<td><code>[]</code></td>
<td><code>primitive:slice</code> and/or <code>primitive:array</code></td>
</tr>
<tr>
<td><code>[T]</code></td>
<td><code>primitive:slice<T></code> and/or <code>primitive:array<T></code></td>
</tr>
<tr>
<td><code>!</code></td>
<td><code>primitive:never</code></td>
</tr>
<tr>
<td><code>()</code></td>
<td><code>primitive:unit</code> and/or <code>primitive:tuple</code></td>
</tr>
<tr>
<td><code>(T)</code></td>
<td><code>T</code></td>
</tr>
<tr>
<td><code>(T,)</code></td>
<td><code>primitive:tuple<T></code></td>
</tr>
<tr><td colspan="2">After this PR</td></tr>
<tr>
<td><code>(T, U -> V, W)</code></td>
<td><code>fn(T, U) -> (V, W)</code>, Fn, FnMut, and FnOnce</td>
</tr>
</tbody>
</table>
The `->` operator has lower precedence than comma. If it's not wrapped in brackets, it delimits the return value for the function being searched for. To search for functions that take functions as parameters, use parenthesis.
### Search query grammar
```ebnf
ident = *(ALPHA / DIGIT / "_")
path = ident *(DOUBLE-COLON ident) [BANG]
slice-like = OPEN-SQUARE-BRACKET [ nonempty-arg-list ] CLOSE-SQUARE-BRACKET
tuple-like = OPEN-PAREN [ nonempty-arg-list ] CLOSE-PAREN
arg = [type-filter *WS COLON *WS] (path [generics] / slice-like / tuple-like)
type-sep = COMMA/WS *(COMMA/WS)
nonempty-arg-list = *(type-sep) arg *(type-sep arg) *(type-sep) [ return-args ]
generic-arg-list = *(type-sep) arg [ EQUAL arg ] *(type-sep arg [ EQUAL arg ]) *(type-sep)
normal-generics = OPEN-ANGLE-BRACKET [ generic-arg-list ] *(type-sep)
CLOSE-ANGLE-BRACKET
fn-like-generics = OPEN-PAREN [ nonempty-arg-list ] CLOSE-PAREN [ RETURN-ARROW arg ]
generics = normal-generics / fn-like-generics
return-args = RETURN-ARROW *(type-sep) nonempty-arg-list
exact-search = [type-filter *WS COLON] [ RETURN-ARROW ] *WS QUOTE ident QUOTE [ generics ]
type-search = [ nonempty-arg-list ]
query = *WS (exact-search / type-search) *WS
; unchanged parts of the grammar, like the full list of type filters, are omitted
```
## Future direction
### The remaining type expression grammar
As described in https://github.com/rust-lang/rust/pull/118194, this is another step in the type expression grammar: BareFunction, and the function-like mode of TypePath, are now supported.
* RawPointerType and ReferenceType actually are a priority.
* ImplTraitType and TraitObjectType (and ImplTraitTypeOneBound and TraitObjectTypeOneBound) aren't as much of a priority, since they desugar pretty easily.
### Search subtyping and traits
This is the other major factor that makes it less useful than it should be.
* `iterator<result<t>> -> result<t>` doesn't find `Result::from_iter`. You have to search [`intoiterator<result<t>> -> result<t>`](https://notriddle.com/rustdoc-html-demo-9/search-hof/std/vec/struct.Vec.html?search=intoiterator%3Cresult%3Ct%3E%3E%20-%3E%20result%3Ct%3E&filter-crate=std). Nobody's going to search for IntoIterator unless they basically already know about it and don't need the search engine anyway.
* Iterator combinators are usually structs that happen to implement Iterator, like `std::iter::Map`.
To solve these cases, it needs to look at trait implementations, knowing that Iterator is a "subtype of" IntoIterator, and Map is a "subtype of" Iterator, so `iterator -> result` is a subtype of `intoiterator -> result` and `iterator<t>, (t -> u) -> iterator<u>` is a subtype of [`iterator<t>, (t -> u) -> map<t -> u>`](https://notriddle.com/rustdoc-html-demo-9/search-hof/std/vec/struct.Vec.html?search=iterator%3Ct%3E%2C%20(t%20-%3E%20u)%20-%3E%20map%3Ct%20-%3E%20u%3E&filter-crate=std).
Add CStr::bytes iterator
See rust-lang/libs-team#135 for an ACP.
Since rust-lang/libs-team#134 was also accepted, this type is now `core::ffi::c_str::Bytes` instead of `core::ffi::CStrBytes`.
unix time module now return result
First try to fix#108277 without break anything.
if anyone who read this know tips to be able to check compilation for different target I could use some help. So far I installed many target with rustup but `./x check --all-targets` doesn't seem to use them.
TODO:
- [x] better error
- [ ] test, how ?
`@rustbot` label -S-waiting-on-author +S-waiting-on-review
interpret: ensure that Place is never used for a different frame
We store the address where the stack frame stores its `locals`. The idea is that even if we pop and push, or switch to a different thread with a larger number of frames, then the `locals` address will most likely change so we'll notice that problem. This is made possible by some recent changes by `@WaffleLapkin,` where we no longer use `Place` across things that change the number of stack frames.
I made these debug assertions for now, just to make sure this can't cost us any perf.
The first commit is unrelated but it's a one-line comment change so it didn't warrant a separate PR...
r? `@oli-obk`
Downgrade const eval dangling ptr in final to future incompat lint
Short term band-aid for issue #121610, downgrading the prior hard error to a future-incompat lint (tracked in issue #122153).
Note we should not mark #121610 as resolved until after this (or something analogous) is beta backported.
extend docs of -Zprint-mono-items
Currently the values one can set this to are not documented anywhere.
I think ideally this flag wouldn't overwrite the collector's behavior, a "print" flag should just print what happens but not change what happens. But our codegen-units tests rely on being able to collect all items without the other side-effects of `-C link-dead-code` and I can't tell whether that reliance is incidental or crucial, so I'm not touching this and just documenting the (messy) status quo.
Safe Transmute: Require that source referent is smaller than destination
`BikeshedIntrinsicFrom` currently models transmute-via-union; i.e., it attempts to provide a `where` bound for this function:
```rust
pub unsafe fn transmute_via_union<Src, Dst>(src: Src) -> Dst {
use core::mem::*;
#[repr(C)]
union Transmute<T, U> {
src: ManuallyDrop<T>,
dst: ManuallyDrop<U>,
}
let transmute = Transmute { src: ManuallyDrop::new(src) };
// SAFETY: The caller must guarantee that the transmutation is safe.
let dst = transmute.dst;
ManuallyDrop::into_inner(dst)
}
```
A quirk of this model is that it admits padding extensions in value-to-value transmutation: The destination type can be bigger than the source type, so long as the excess consists of uninitialized bytes. However, this isn't permissible for reference-to-reference transmutations (introduced in #110662) — extra referent bytes cannot come from thin air.
This PR patches our analysis for reference-to-reference transmutations to require that the destination referent is no larger than the source referent.
r? `@compiler-errors`
pattern analysis: remove `MaybeInfiniteInt::JustAfterMax`
It was inherited from before half-open ranges, but it doesn't pull its weight anymore. We lose a tiny bit of diagnostic precision as can be seen in the test. I'm generally in favor of half-open ranges over explicit `x..=MAX` ranges anyway.
pattern analysis: rename a few types
A few long overdue renames. `ValidityConstraint` was supposed to serve double purpose but I don't need that anymore. I don't know what I was thinking with `TypeCx` I think I was trying to be clever. That's fixed now 😄
r? ``@compiler-errors``
Fix StableMIR `WrappingRange::is_full` computation
`WrappingRange::is_full` computation assumed that to be full the range couldn't wrap, which is not necessarily true.
For example, a range of 1..=0 is a valid representation of a full wrapping range.
compiletest: Allow `only-unix` in test headers
The header `ignore-unix` is already allowed. Also extend tests.
This is needed by https://github.com/rust-lang/rust/pull/121573 which I am splitting up into smaller and more digestible PRs.
The source referent absolutely must be smaller than the destination
referent of a ref-to-ref transmute; the excess bytes referenced
cannot arise from thin air, even if those bytes are uninitialized.
Represent `Result<usize, Box<T>>` as ScalarPair(i64, ptr)
This allows types like `Result<usize, std::io::Error>` (and integers of differing sign, e.g. `Result<u64, i64>`) to be passed in a pair of registers instead of through memory, like `Result<u64, u64>` or `Result<Box<T>, Box<U>>` are today.
Fixes#97540.
r? `@ghost`
I attempted to do this in a manner that preserved the line numbers to reduce the
review effort on the resulting diff, but we still have to deal with the
ramifications of how a future-incompat lint behaves compared to a hard-error (in
terms of its impact on the diagnostic output).
delay expand macro bang when there has indeterminate path
Related #98291
I will attempt to clarify the root problem through several examples:
Firstly,
```rs
// rustc code.rs --edition=2018
macro_rules! wrap {
() => {
macro_rules! _a {
() => {
"Hello world"
};
}
};
}
wrap!();
use _a as a;
fn main() {
format_args!(_a!());
}
```
The above case will compile successfully because `_a` is defined after the `wrap` expaned, ensuring `_a` can be resolved without any issues.
And,
```rs
// rustc code.rs --edition=2018
macro_rules! wrap {
() => {
macro_rules! _a {
() => {
"Hello world"
};
}
};
}
wrap!();
use _a as a;
fn main() {
format_args!("{}", a!());
}
```
The above example will also compile successfully because the `parse_args` in `expand_format_args_impl` will return a value `MacroInput { fmtstr: Expr::Lit::Str, args: [Expr::MacroCall]}`. Since the graph for `args` will be build lately, `a` will eventually be resolved.
However, in the case of:
```rs
// rustc code.rs --edition=2018
macro_rules! wrap {
() => {
macro_rules! _a {
() => {
"Hello world"
};
}
};
}
wrap!();
use _a as a;
fn main() {
format_args!(a!());
}
```
The result of `parse_args` is `MacroInput {fmtstr: Expr::Lit::Macro, args: [] }`, we attempt to expand `fmtstr` **eagerly** within `expr_to_spanned_string`. Although we have recorded `(root, _a)` into resolutions, `use _a as a` is an indeterminate import, which will not try to resolve under the conditions of `expander.monotonic = false`.
Therefore, I've altered the strategy for resolving indeterminate imports, ensuring it will also resolve during eager expansion. This could be a significant change to the resolution infra. However, I think it's acceptable if the goal of avoiding resolution under eager expansion is to save time.
r? `@petrochenkov`
