coverage: Clarify some parts of coverage counter creation
This is a series of semi-related changes that are trying to make the `counters` module easier to read, understand, and modify.
For example, the existing code happens to avoid ever using the count for a `TerminatorKind::Yield` node as the count for its sole out-edge (since doing so would be incorrect), but doesn't do so explicitly, so seemingly-innocent changes can result in baffling test failures.
This PR also takes the opportunity to simplify some debug-logging code that was making its surrounding code disproportionately hard to read.
There should be no changes to the resulting coverage instrumentation/mappings, as demonstrated by the absence of changes to the coverage test suite.
layout computation: gracefully handle unsized types in unexpected locations
This PR reworks the layout computation to eagerly return an error when encountering an unsized field where a sized field was expected, rather than delaying a bug and attempting to recover a layout. This is required, because with trivially false where clauses like `[T]: Sized`, any field can possible be an unsized type, without causing a compile error.
Since this PR removes the `delayed_bug` method from the `LayoutCalculator` trait, it essentially becomes the same as the `HasDataLayout` trait, so I've also refactored the `LayoutCalculator` to be a simple wrapper struct around a type that implements `HasDataLayout`.
The majority of the diff is whitespace changes, so viewing with whitespace ignored is advised.
implements https://github.com/rust-lang/rust/pull/123169#issuecomment-2025788480
r? `@compiler-errors` or compiler
fixes https://github.com/rust-lang/rust/issues/123134
fixes https://github.com/rust-lang/rust/issues/124182
fixes https://github.com/rust-lang/rust/issues/126939
fixes https://github.com/rust-lang/rust/issues/127737
Supertraits of `BuilderMethods` are all called `XyzBuilderMethods`.
Supertraits of `CodegenMethods` are all called `XyzMethods`. This commit
changes the latter to `XyzCodegenMethods`, for consistency.
It's a trait that aggregates five other traits. But consider the places
that use it.
- `BuilderMethods`: requires three of the five traits.
- `CodegenMethods`: requires zero(!) of the five traits.
- `BaseTypeMethods`: requires two of the five traits.
- `LayoutTypeMethods`: requires three of the five traits.
- `TypeMembershipMethods`: requires one of the five traits.
This commit just removes it, which makes everything simpler.
It has `Backend` and `Deref` boudns, plus an associated type
`CodegenCx`, and it has a single use. This commit "inlines" it into
`BuilderMethods`, which makes the complicated backend trait situation a
little simpler.
It only needs `Self::Value` and `Self::Type`, so it can be a subtrait of
`BackendTypes`. That is a smaller and simpler trait than `HasCodegen`
(which includes `BackendTypes` and a lot more).
This changed in
llvm/llvm-project@e190d074a0. I decided to
stick with more duplication between the ifdef blocks to make the code
easier to read for the next two years before we can plausibly drop LLVM
19.
@rustbot label: +llvm-main
For structs that cannot be unsized, the layout algorithm sometimes moves
unsized fields to the end of the struct, which circumvented the error
for unexpected unsized fields and returned an unsized layout anyway.
This commit makes it so that the unexpected unsized error is always
returned for structs that cannot be unsized, allowing us to remove an
old hack and fixing some old ICE.
Rollup of 3 pull requests
Successful merges:
- #130033 (Don't call `fn_arg_names` query for non-`fn` foreign items in resolver)
- #130282 (Do not report an excessive number of overflow errors for an ever-growing deref impl)
- #130437 (Avoid crashing on variadic functions when producing arg-mismatch errors)
r? `@ghost`
`@rustbot` modify labels: rollup
Avoid crashing on variadic functions when producing arg-mismatch errors
Fixes#130372 by accommodating how variadic functions change the argument list length between HIR body and FnDecls.
Also degrades the zip_eq to a debug_assert! to match other asserts in the area to avoid being disruptive to users. There is at least one other crash in this area I am working on in #130400 and also considering how we might refactor some of this code to hoist some of this logic up higher.
r? `@compiler-errors`
Do not report an excessive number of overflow errors for an ever-growing deref impl
Check that we don't first hit the recursion limit in `get_field_candidates_considering_privacy` before probing for methods when we have a method lookup failure and we want to see if `.field.method()` exists. We also silence overflow error messages if we're probing for methods for diagnostics.
Also renames some functions to make it clearer that they're only for diagnostics, and sprinkle some `Autoderef::silence_errors` around to silence unnecessary overflow errors that come from diagnostics.
Fixes#130224.
Rollup of 4 pull requests
Successful merges:
- #123436 (linker: Allow MSVC to use import libraries following the Meson/MinGW convention)
- #130410 (Don't ICE when generating `Fn` shim for async closure with borrowck error)
- #130412 (Don't ICE when RPITIT captures more method args than trait definition)
- #130436 (Ignore reduce-fadd-unordered on SGX platform)
r? `@ghost`
`@rustbot` modify labels: rollup
Don't ICE when RPITIT captures more method args than trait definition
Make sure we don't ICE when an RPITIT captures more method args than the trait definition, which is not allowed. This was because we were using the wrong def id for error reporting.
Due to the default lifetime capture rules of RPITITs (capturing everything in scope), this is only doable if we use precise capturing, which isn't currently allowed for RPITITs anyways but we still end up reaching the relevant codepaths.
Fixes#129850
Don't ICE when generating `Fn` shim for async closure with borrowck error
Turn an assumption that I had originally written as an assert into a delayed bug, because this shim code is reachable even if we have borrowck errors via the MIR inliner.
Fixes#129262.
linker: Allow MSVC to use import libraries following the Meson/MinGW convention
Hi all,
This PR implements support for `MsvcLinker` to use import libraries following Meson and the MinGW toolchain's naming convention. Meson [follows the `libfoo.dll.a` naming convention](https://mesonbuild.com/FAQ.html#why-does-building-my-project-with-msvc-output-static-libraries-called-libfooa) to disambiguate between static and import libraries.
This support already existed for static libraries (see #100101), but not for dynamic libraries. The latter case was added by duplicating the logic in `native_libs::find_native_static_library`, but a separate case was added in `link_dylib_by_name` for the Windows CRT libraries which must be handled by the linker itself.
See for prerequisites #129366, #126094, and #128370.
All feedback is appreciated!
Fixes#122455
cc `@sdroege` `@nirbheek`
Don't use `typeck_root_def_id` in codegen for finding closure's root
Generating debuginfo in codegen currently peels off all the closure-specific generics (which presumably is done because they're redundant). This doesn't currently work correctly for the bodies we synthesize for async closures's returned coroutines (#128506), leading to #129702.
Specifically, `typeck_root_def_id` for some `DefKind::SyntheticCoroutineBody` just returns itself (because it loops while `is_typeck_child` is `true`, and that returns `false` for this defkind), which means we don't end up peeling off the coroutine-specific generics, and we end up encountering an otherwise unreachable `CoroutineWitness` type leading to an ICE.
This PR fixes `is_typeck_child` to consider `DefKind::SyntheticCorotuineBody` to be a typeck child, fixing `typeck_root_def_id` and suppressing this debuginfo bug.
Fixes#129702
Add system libs for LLVM when cross compiling for Windows
Windows uses "import libraries" to link to system libraries. These are a kind of static lib that are distributed with the Windows SDK and therefore they don't rely on the host. All that matters is you have the right SDK installed for the target.
Use -0.0 in `intrinsics::simd::reduce_add_unordered`
-0.0 is the actual neutral additive float, not +0.0, and this matters to codegen.
try-job: aarch64-gnu
