Allow escaping bound vars during `normalize_erasing_regions` in new solver
Add `AllowEscapingBoundVars` to `deeply_normalize`, and use it in the new solver in the `query_normalize` routine.
Ideally, we'd make all `query_normalize` calls handle pass in `AllowEscapingBoundVars` individually, because really the only `query_normalize` call that needs `AllowEscapingBoundVars::Yes` is the one in `try_normalize_generic_arg_after_erasing_regions`, but I think that's kind of overkill. I am happy to be convinced otherwise, though.
r? `@lcnr`
Rollup of 9 pull requests
Successful merges:
- #113599 (Use maybe_body_owned_by for multiple suggestions)
- #113662 (Rename VecDeque's `rotate_left` and `rotate_right` parameters)
- #113681 (rustdoc-json: Add test for private supertrait.)
- #113682 (trait system refactor ping: also apply to nested modules of `solve`)
- #113685 (Print artifact sizes in `opt-dist`)
- #113688 (llvm-wrapper: update for LLVM API change)
- #113692 (tests: adapt for removal of -opaque-pointers in LLVM 17)
- #113698 (Make it clearer that we're just checking for an RPITIT)
- #113699 (update Miri)
Failed merges:
- #113625 (Structurally normalize in selection)
r? `@ghost`
`@rustbot` modify labels: rollup
Make it clearer that we're just checking for an RPITIT
Tiny nit to use `is_impl_trait_in_trait` more, to make it clearer that we're just checking whether a def-id is an RPITIT, rather than doing something meaningful with the `opt_rpitit_info`.
r? `@spastorino`
Print artifact sizes in `opt-dist`
The Python PGO script printed a nice table of artifact sizes (`librustc_driver.so`, `libLLVM.so`, ...) at the end of the CI run, which was useful to quickly see the sizes of important files. I forgot to port this functionality into the Rust (`opt-dist`) version in https://github.com/rust-lang/rust/pull/112235. This PR fixes that.
r? bootstrap
Rename VecDeque's `rotate_left` and `rotate_right` parameters
This pull request introduces a modification to the `VecDeque` collection, specifically the `rotate_left` and `rotate_right` functions, by renaming the parameter associated with these functions.
The rationale behind this change is to provide clearer and more consistent naming for the parameter that specifies the number of places to rotate the double-ended queue. By using `n` as the parameter name in both functions, it becomes easier to understand and remember the purpose of the parameter.
Use maybe_body_owned_by for multiple suggestions
This is a continued work from https://github.com/rust-lang/rust/pull/113567
We have several other suggestions not working for closure, this PR use `maybe_body_owned_by` to fix them and add test cases for them.
This crate is a private implementation detail. We only need to insert it
into the crate graph for linking and should not expose any of its public
API.
Fixes#113533
refactor(rustc_middle): Substs -> GenericArg
resolves#110793
- [x] rename `SubstsRef` and `InternalSubsts` to `GenericArgsRef<'tcx>` and `GenericArgs<'tcx>`.
- [x] rename variables and fields currently using `substs` to `args`.
- [x] update the module name of `ty::subst` to `ty::generic_args` or sth. Make that module private and publicly reexport its content in the ty module.
- [x] rename `EarlyBinder::subst(_identity)` to `EarlyBinder::instantiate(_identity)`.
- [x] types called `[a-zA-Z]+Substs` renamed to `XArgs`.
- [x] functions containing `substs` now use `args` or `generic_args` (mostly the former).
However, the verb of "substituting" is still being used here and there, mostly in comments. I think that can be a separate PR as part of https://github.com/rust-lang/rust/issues/110254 to change the verb to `replace_generics` or something similar.
remove compile-flags that are no longer needed
We stopped running fail-tests with optimizations a while ago, so we don't need to explicitly set the opt-level to 0 any more.
bootstrap: update defaults for `compiler` and `library` aliases
* `x doc compiler` now documents all of compiler, not just `rustc_driver`.
* `x doc` with compiler docs enabled now includes `rustc-main` and `rustc_smir`. `rustc_codegen_llvm` is only included if the LLVM backend is enabled, which is the default.
* `x doc library` now excludes `sysroot`.
* `x check compiler` and `x check library` now properly check tests/benches/examples of all compiler or library crates, respectively. Note that `x check compiler` will check the library artifacts, but not tests.
fixes the fallout from https://github.com/rust-lang/rust/pull/111955, cc `@jyn514`
Enable potential_query_instability lint in rustc_hir_typeck.
Fix linting errors by using `FxIndex(Map|Set)` and `Unord(Map|Set)` as appropriate. Part of [MCP 533](https://github.com/rust-lang/compiler-team/issues/533).
I really like the `potential_query_instability` lint!
r? `@lcnr`
Add a cache for `maybe_lint_level_root_bounded`
`maybe_lint_level_root_bounded` is called many times and traces node sub-paths many times. This PR adds a cache that lets many of these tracings be skipped, avoiding lots of calls to functions like `Map::attrs` and `Map::parent_id`.
r? `@cjgillot`
Eliminate ZST allocations in `Box` and `Vec`
This PR fixes 2 issues with `Box` and `RawVec` related to ZST allocations. Specifically, the `Allocator` trait requires that:
- If you allocate a zero-sized layout then you must later deallocate it, otherwise the allocator may leak memory.
- You cannot pass a ZST pointer to the allocator that you haven't previously allocated.
These restrictions exist because an allocator implementation is allowed to allocate non-zero amounts of memory for a zero-sized allocation. For example, `malloc` in libc does this.
Currently, ZSTs are handled differently in `Box` and `Vec`:
- `Vec` never allocates when `T` is a ZST or if the vector capacity is 0.
- `Box` just blindly passes everything on to the allocator, including ZSTs.
This causes problems due to the free conversions between `Box<[T]>` and `Vec<T>`, specifically that ZST allocations could get leaked or a dangling pointer could be passed to `deallocate`.
This PR fixes this by changing `Box` to not allocate for zero-sized values and slices. It also fixes a bug in `RawVec::shrink` where shrinking to a size of zero did not actually free the backing memory.
