Pass alignments through the shim as `Alignment` (not `usize`)
We're using `Layout` on both sides, so might as well skip the transmutes back and forth to `usize`.
The mir-opt test shows that doing so allows simplifying the boxed-slice drop slightly, for example.
We're using `Layout` on both sides, so might as well skip the transmutes back and forth to `usize`.
The mir-opt test shows that doing so allows simplifying the boxed-slice drop slightly, for example.
Support ADT types in type info reflection
Tracking issue: rust-lang/rust#146922 `#![feature(type_info)]`
This PR supports ADT types for feature `type_info` reflection.
(It's still a draft PR, with implementation in progress)
Note that this PR does not take SemVer into consideration (I left a FIXME comment). As discussed earlier ([comment](https://github.com/rust-lang/rust/pull/146923#discussion_r2372249477)), this requires further discussion. However, I hope we could get an initial implementation to land first, so we can start playing with it.
### Progress / Checklist
- [x] Struct support.
- [x] Enum
- [x] Union
- [x] Generics
- [ ] ~Methods~ Implemented and to be implemented in other PRs
- [ ] ~Traits~ Implemented and to be implemented in other PRs
- [x] Rebasing PR to `main` branch
~~(It's currently based on PR rust-lang/rust#151123, so here's an extra commit)~~
- [x] Cleanup and Rebase.
- [x] Fix field info for references. (see [comment](https://github.com/rust-lang/rust/pull/151142#discussion_r2777920512))
r? @oli-obk
Remove `SubdiagMessage` in favour of the identical `DiagMessage`
For https://github.com/rust-lang/rust/issues/151366
Just some more cleanup :)
SubdiagMessage is now identical to DiagMessage, so there's no point in having both of them
Revert, but without type const.
Update symbol for feature err, then update suggestion output, and lastly update tests that change because of those.
Update these new tests with the correct syntax, and few existing tests with the new outputs the merge with main added.
Fix for tidyfmt and some errors when manually resolving a merge conflicts.
Update these tests to use update error messages and type const syntax.
Update comments and error message to use new syntax instead of old type_const attribute.
Remove the type_const attribute
update some more tests to use the new syntax.
Update these test cases.
update feature gate test
Change gate logic for `mgca_type_const_syntax` to work also if `min_generic_const_args` is enabled.
Create a new feature gate that checks for the feature before expansion.
Make rustfmt handle the `type const` syntax correctly.
Add a convience method to check if a RhsKind is type const.
Rename `Const` discriminant to `Body` for `ConstItemRhsKind`
Give the `TraitItemKind` flag an enum instead of a simple bool to better describe what the flag is for.
Update formatting for these match statements.
Update clippy test to use type const syntax.
Update test to use type const syntax.
update rustfmt to match ast items.
Update clippy to match ast and hir items.
Few more test cases that used old attribute, instead of 'type const'
Update to match the output from the feature gate checks.
tidyfmt adjustments.
Update the is_type_const, so I can constrain record!(..) in encoder.rs
Update conditional compilation test.
Move the feature gate to after expansion to allow for cfg(...) to work.
Update some more tests to use the new syntax.
Update type const tests in associated-const-bindings to use new syntax.
Don't check based off the attribute, but the item here.
Update some tests outside of the const_generics folder that were using #[type_const]
update the tests in associated consts that use #[type_const] to use type const
Update these mgca tests with the type const syntax.
Add a flag to TraitItemKind for detecting type const for now. Maybe later change ItemConstRhs to have optional consts but that touches a lot more lines of code.
Don't need into for these now that it's a query.
Add is_type_const query to handle foreign def ids.
update this test to use type const syntax.
Fix logic here, we only want to lower if there is expression in this case.
Update built-in macros to use ConstItemRhsKind
Update more instance of the old ConstItemRhs.
Rename ConstItemKind to ConstItemRhsKind, I noticed there is a typed called ConstantItemKind, so add the Rhs to the name to avoid confusion.
Update lower to use ConstItemKind
Add an other helper method to check if the rhs kinda has an expr.
Update item parse to use ConstItemKind enum.
Felt the field name could a be little clear when editing a few other things.
Change the ConstItem struct see know if we have a type const or regular const.
Make sure this syntax is properly feature gated.
Implement MVP for opaque generic const arguments
This is meant to be the interim successor to generic const expressions.
Essentially, const item RHS's will be allowed to do arbitrary const
operations using generics. The limitation is that these const items will
be treated opaquely, like ADTs in nominal typing, such that uses of them
will only be equal if the same const item is referenced. In other words,
two const items with the exact same RHS will not be considered equal.
I also added some logic to check feature gates that depend on others
being enabled (like oGCA depending on mGCA).
### Coherence
During coherence, OGCA consts should be normalized ambiguously because
they are opaque but eventually resolved to a real value. We don't want
two OGCAs that have the same value to be treated as distinct for
coherence purposes. (Just like opaque types.)
This actually doesn't work yet because there are pre-existing
fundamental issues with equate relations involving consts that need to
be normalized. The problem is that we normalize only one layer of the
const item and don't actually process the resulting anon const. Normally
the created inference variable should be handled, which in this case
would cause us to hit the anon const, but that's not happening.
Specifically, `visit_const` on `Generalizer` should be updated to be
similar to `visit_ty`.
r? @BoxyUwU
Streamline `rustc_span::HashStableContext`.
Currently this trait has five methods. But it only really needs three.
For example, currently stable hashing of spans is implemented in `rustc_span`, except a couple of sub-operations are delegated to `rustc_query_system`: `def_span` and `span_data_to_lines_and_cols`. These two delegated sub-operations can be reduced to a single delegated operation that does the full hash computation.
Likewise, `assert_default_hashing_controls` depends on two delegated sub-operations, `hashing_controls` and
`unstable_opts_incremental_ignore_spans`, and can be simplified.
I find the resulting code simpler and clearer -- when necessary, we do a whole operation in `rustc_query_system` instead of doing it partly in `rustc_span` and partly in `rustc_query_system`.
r? @cjgillot
Fix `SourceFile::normalized_byte_pos`
This method was broken by 258ace6, which changed `self.normalized_pos` to use relative offsets however this method continued to compare against an absolute offset.
Also adds a regression test for the issue that this method was originally introduced to fix.
Closesrust-lang/rust#149568
Fixes regression of rust-lang/rust#110885
r? cjgillot (as author of the breaking commit)
This is meant to be the interim successor to generic const expressions.
Essentially, const item RHS's will be allowed to do arbitrary const
operations using generics. The limitation is that these const items will
be treated opaquely, like ADTs in nominal typing, such that uses of them
will only be equal if the same const item is referenced. In other words,
two const items with the exact same RHS will not be considered equal.
I also added some logic to check feature gates that depend on others
being enabled (like oGCA depending on mGCA).
= Coherence =
During coherence, OGCA consts should be normalized ambiguously because
they are opaque but eventually resolved to a real value. We don't want
two OGCAs that have the same value to be treated as distinct for
coherence purposes. (Just like opaque types.)
This actually doesn't work yet because there are pre-existing
fundamental issues with equate relations involving consts that need to
be normalized. The problem is that we normalize only one layer of the
const item and don't actually process the resulting anon const. Normally
the created inference variable should be handled, which in this case
would cause us to hit the anon const, but that's not happening.
Specifically, `visit_const` on `Generalizer` should be updated to be
similar to `visit_ty`.
Currently this trait has five methods. But it only really needs three.
For example, currently stable hashing of spans is implemented in
`rustc_span`, except a couple of sub-operations are delegated to
`rustc_query_system`: `def_span` and `span_data_to_lines_and_cols`.
These two delegated sub-operations can be reduced to a single delegated
operation that does the full hash computation.
Likewise, `assert_default_hashing_controls` depends on two delegated
sub-operations, `hashing_controls` and
`unstable_opts_incremental_ignore_spans`, and can be simplified.
I find the resulting code simpler and clearer -- when necessary, we do a
whole operation in `rustc_query_system` instead of doing it partly in
`rustc_span` and partly in `rustc_query_system`.
Add avr_target_feature
This adds the following unstable target features (tracking issue: https://github.com/rust-lang/rust/issues/146889):
- The following two are particularly important for properly supporting inline assembly:
- `tinyencoding`: AVR has devices that reduce the number of registers, similar to RISC-V's RV32E. This feature is necessary to support inline assembly in such devices. (see also https://github.com/rust-lang/rust/pull/146901)
- `lowbytefirst`: AVR's memory access is per 8-bit, and when writing 16-bit ports, the bytes must be written in a specific order. This order depends on devices, making this feature necessary to write proper inline assembly for such use cases. (see also 2a528760bf)
- The followings help recognizing whether specific instructions are available:
- `addsubiw`
- `break`
- `eijmpcall`
- `elpm`
- `elpmx`
- `ijmpcall`
- `jmpcall`
- `lpm`
- `lpmx`
- `movw`
- `mul`
- `rmw`
- `spm`
- `spmx`
Of these, all except `addsubiw`, `break`, `ijmpcall`, `lpm`, `rmw`, `spm`, and `spmx` have [corresponding conditional codes in avr-libc](https://github.com/search?q=repo%3Aavrdudes%2Favr-libc+%2F__AVR_HAVE_%2F&type=code&p=1). LLVM also has `des` feature, but I excluded it from this PR because [DES](https://en.wikipedia.org/wiki/Data_Encryption_Standard) is insecure.
- Report future-incompatible warning (https://github.com/rust-lang/rust/issues/116344) for -C target-feature=-sram and -C target-cpu=<device_without_sram> cases because SRAM is minimum requirement for non-assembly language in both avr-gcc and LLVM.
- See https://github.com/rust-lang/rust/pull/146900#issuecomment-3323558005 for details.
LLVM also has `smallstack`, `wrappingrjmp`, and `memmappedregs` features, but I skipped them because they didn't seem to belong to either of the above categories, but I might have missed something.
(The feature names are match with [definitions in LLVM](https://github.com/llvm/llvm-project/blob/llvmorg-21.1.0/llvm/lib/Target/AVR/AVRDevices.td).)
cc @Patryk27 @Rahix
r? workingjubilee
@rustbot label +O-AVR +A-target-feature
Calling `match` on a struct is a really weird thing to do. As the name
suggests, it's an assert, so let's write it as one. Also clarify the
comment a little.
Port depgraph testing attributes to parser
Tracking issue: rust-lang/rust#131229
Ports `#[rustc_clean]`, `#[rustc_if_this_changed]` and `#[rustc_then_this_would_need]` attributes.
Removes references to `rustc_dirty` as that attribute was folded into `rustc_clean` some time ago and rename some code accordingly.
r? JonathanBrouwer
Rename trait `DepNodeParams` to `DepNodeKey`
In query system plumbing, we usually refer to a query's explicit argument value as a “key”.
The first few commits do some preliminary cleanup that would conflict with the rename; the rename itself is in the final commit.
r? nnethercote (or compiler)
resolve: Replace `Macros20NormalizedIdent` with `IdentKey`
This is a continuation of https://github.com/rust-lang/rust/pull/150741 and https://github.com/rust-lang/rust/pull/150982 based on the ideas from https://github.com/rust-lang/rust/pull/151491#issuecomment-3784421866.
Before this PR `Macros20NormalizedIdent` was used as a key in various "identifier -> its resolution" maps in `rustc_resolve`.
`Macros20NormalizedIdent` is a newtype around `Ident` in which `SyntaxContext` (packed inside `Span`) is guaranteed to be normalized using `normalize_to_macros_2_0`.
This type is also used in a number of functions looking up identifiers in those maps.
`Macros20NormalizedIdent` still contains span locations, which are useless and ignored during hash map lookups and comparisons due to `Ident`'s special `PartialEq` and `Hash` impls.
This PR replaces `Macros20NormalizedIdent` with a new type called `IdentKey`, which contains only a symbol and a normalized unpacked syntax context. (E.g. `IdentKey` == `Macros20NormalizedIdent` minus span locations.)
So we avoid keeping additional data and doing some syntax context packing/unpacking.
Along with `IdentKey` you can often see `orig_ident_span: Span` being passed around.
This is an unnormalized span of the original `Ident` from which `IdentKey` was obtained.
It is not used in map keys, but it is used in a number of other scenarios:
- diagnostics
- edition checks
- `allow_unstable` checks
This is because `normalize_to_macros_2_0` normalization is lossy and the normalized spans / syntax contexts no longer contain parts of macro backtraces, while the original span contains everything.
Suggest changing `iter`/`into_iter` when the other was meant
When encountering a call to `iter` that should have been `into_iter` and vice-versa, provide a structured suggestion:
```
error[E0271]: type mismatch resolving `<IntoIter<{integer}, 3> as IntoIterator>::Item == &{integer}`
--> $DIR/into_iter-when-iter-was-intended.rs:5:37
|
LL | let _a = [0, 1, 2].iter().chain([3, 4, 5].into_iter());
| ----- ^^^^^^^^^^^^^^^^^^^^^ expected `&{integer}`, found integer
| |
| required by a bound introduced by this call
|
note: the method call chain might not have had the expected associated types
--> $DIR/into_iter-when-iter-was-intended.rs:5:47
|
LL | let _a = [0, 1, 2].iter().chain([3, 4, 5].into_iter());
| --------- ^^^^^^^^^^^ `IntoIterator::Item` is `{integer}` here
| |
| this expression has type `[{integer}; 3]`
note: required by a bound in `std::iter::Iterator::chain`
--> $SRC_DIR/core/src/iter/traits/iterator.rs:LL:COL
help: consider not consuming the `[{integer}, 3]` to construct the `Iterator`
|
LL - let _a = [0, 1, 2].iter().chain([3, 4, 5].into_iter());
LL + let _a = [0, 1, 2].iter().chain([3, 4, 5].iter());
|
```
Finish addressing the original case in rust-lang/rust#68095. Only the case of chaining a `Vec` or `[]` is left unhandled.
Add a `documentation` remapping path scope for rustdoc usage
This PR adds a new remapping path scope for rustdoc usage: `documentation`, instead of rustdoc abusing the other scopes for it's usage.
Like remapping paths in rustdoc, this scope is unstable. (rustdoc doesn't even have yet an equivalent to [rustc `--remap-path-scope`](https://doc.rust-lang.org/nightly/rustc/remap-source-paths.html#--remap-path-scope)).
I also took the opportunity to add a bit of documentation in rustdoc book.
When encountering a call to `iter` that should have been `into_iter` and vice-versa, provide a structured suggestion:
```
error[E0271]: type mismatch resolving `<IntoIter<{integer}, 3> as IntoIterator>::Item == &{integer}`
--> $DIR/into_iter-when-iter-was-intended.rs:5:37
|
LL | let _a = [0, 1, 2].iter().chain([3, 4, 5].into_iter());
| ----- ^^^^^^^^^^^^^^^^^^^^^ expected `&{integer}`, found integer
| |
| required by a bound introduced by this call
|
note: the method call chain might not have had the expected associated types
--> $DIR/into_iter-when-iter-was-intended.rs:5:47
|
LL | let _a = [0, 1, 2].iter().chain([3, 4, 5].into_iter());
| --------- ^^^^^^^^^^^ `IntoIterator::Item` is `{integer}` here
| |
| this expression has type `[{integer}; 3]`
note: required by a bound in `std::iter::Iterator::chain`
--> $SRC_DIR/core/src/iter/traits/iterator.rs:LL:COL
help: consider not consuming the `[{integer}, 3]` to construct the `Iterator`
|
LL - let _a = [0, 1, 2].iter().chain([3, 4, 5].into_iter());
LL + let _a = [0, 1, 2].iter().chain([3, 4, 5].iter());
|
```
abi: add a rust-preserve-none calling convention
This is the conceptual opposite of the rust-cold calling convention and is particularly useful in combination with the new `explicit_tail_calls` feature.
For relatively tight loops implemented with tail calling (`become`) each of the function with the regular calling convention is still responsible for restoring the initial value of the preserved registers. So it is not unusual to end up with a situation where each step in the tail call loop is spilling and reloading registers, along the lines of:
foo:
push r12
; do things
pop r12
jmp next_step
This adds up quickly, especially when most of the clobberable registers are already used to pass arguments or other uses.
I was thinking of making the name of this ABI a little less LLVM-derived and more like a conceptual inverse of `rust-cold`, but could not come with a great name (`rust-cold` is itself not a great name: cold in what context? from which perspective? is it supposed to mean that the function is rarely called?)
add `simd_splat` intrinsic
Add `simd_splat` which lowers to the LLVM canonical splat sequence.
```llvm
insertelement <N x elem> poison, elem %x, i32 0
shufflevector <N x elem> v0, <N x elem> poison, <N x i32> zeroinitializer
```
Right now we try to fake it using one of
```rust
fn splat(x: u32) -> u32x8 {
u32x8::from_array([x; 8])
}
```
or (in `stdarch`)
```rust
fn splat(value: $elem_type) -> $name {
#[derive(Copy, Clone)]
#[repr(simd)]
struct JustOne([$elem_type; 1]);
let one = JustOne([value]);
// SAFETY: 0 is always in-bounds because we're shuffling
// a simd type with exactly one element.
unsafe { simd_shuffle!(one, one, [0; $len]) }
}
```
Both of these can confuse the LLVM optimizer, producing sub-par code. Some examples:
- https://github.com/rust-lang/rust/issues/60637
- https://github.com/rust-lang/rust/issues/137407
- https://github.com/rust-lang/rust/issues/122623
- https://github.com/rust-lang/rust/issues/97804
---
As far as I can tell there is no way to provide a fallback implementation for this intrinsic, because there is no `const` way of evaluating the number of elements (there might be issues beyond that, too). So, I added implementations for all 4 backends.
Both GCC and const-eval appear to have some issues with simd vectors containing pointers. I have a workaround for GCC, but haven't yet been able to make const-eval work. See the comments below.
Currently this just adds the intrinsic, it does not actually use it anywhere yet.
This is the conceptual opposite of the rust-cold calling convention and
is particularly useful in combination with the new `explicit_tail_calls`
feature.
For relatively tight loops implemented with tail calling (`become`) each
of the function with the regular calling convention is still responsible
for restoring the initial value of the preserved registers. So it is not
unusual to end up with a situation where each step in the tail call loop
is spilling and reloading registers, along the lines of:
foo:
push r12
; do things
pop r12
jmp next_step
This adds up quickly, especially when most of the clobberable registers
are already used to pass arguments or other uses.
I was thinking of making the name of this ABI a little less LLVM-derived
and more like a conceptual inverse of `rust-cold`, but could not come
with a great name (`rust-cold` is itself not a great name: cold in what
context? from which perspective? is it supposed to mean that the
function is rarely called?)
`const` blocks as a `mod` item
Tracking issue: rust-lang/rust#149226
This adds support for writing `const { ... }` as an item in a module. In the current implementation, this is a unique AST item that gets lowered to `const _: () = const { ... };` in HIR.
rustfmt support included.
TODO:
- `pub const { ... }` does not make sense (see rust-lang/rust#147136). Reject it. Should this be rejected by the parser or smth?
- Improve diagnostics (preferably they should not mention the fake `_` ident).
This method was broken by 258ace6, which changed `self.normalized_pos`
to use relative offsets however this method continued to compare against
an absolute offset.
Also adds a regression test for the issue that this method was
originally introduced to fix.
Removes the attribute from `MetaSized` and `PointeeSized`, with a special case in the trait solvers for `MetaSized`.
`dyn MetaSized` is a perfectly cromulent type, and seems to only have had #[rustc_do_not_implement_via_object] so the builtin object
candidate does not overlap with the builtin MetaSized impl that all `dyn` types get.
Resolves this with a special case by checking `is_sizedness_trait` where the trait solvers previously checked `implement_via_object`.
`dyn PointeeSized` alone is rejected for other reasons (since `dyn PointeeSized` is considered to have no principal trait because `PointeeSized`
is removed at an earlier stage of the compiler), but `(dyn PointeeSized + Send)` is valid and equivalent to `dyn Send`.
Add suggestions from code review
Update compiler/rustc_trait_selection/src/traits/dyn_compatibility.rs and tests
Co-authored-by: lcnr <rust@lcnr.de>
