Verify copies of mutable pointers in 2 stages in ReferencePropagation
Fixes#111422
In the first stage, we mark the copies as reborrows, to be checked later.
In the second stage, we walk the reborrow chains to verify that all stages are fully replacable.
The replacement itself mirrors the check, and iterates through the reborrow chain.
r? ``````@RalfJung``````
cc ``````@JakobDegen``````
bump windows crate 0.46 -> 0.48
This drops duped version of crate(0.46), reduces `rustc_driver.dll` ~800kb and reduces exported functions number from 26k to 22k.
Also while here, added `tidy-alphabetical` sorting to lists in tidy allowed lists.
Fix instrument-coverage tests by using Python to sort instantiation groups
#110942 was intended to fix a set of `-Cinstrument-coverage` tests, but it ended up silently *breaking* those tests on Linux, for annoying reasons detailed at #111171.
Dealing with `diff --ignore-matching-lines` across multiple platforms has been such a hassle that I've instead written a simple Python script that can detect instantiation groups in the output of `llvm-cov show`, and sort them in a predictable order so that they can be used as snapshots for an ordinary invocation of `diff`.
This approach should be much less error-prone, because it can't accidentally ignore the wrong lines, and any unforeseen problems will tend to result in a Python exception or a failing diff.
Simplify the implementation of iterators over slices of ZSTs
Currently, slice iterators over ZSTs store `end = start.wrapping_byte_add(len)`.
That's slightly convenient for `is_empty`, but kinda annoying for pretty much everything else -- see bugs like #42789, for example.
This PR instead changes it to just `end = ptr::invalid(len)` instead.
That's easier to think about (IMHO, at least) as well as easier to represent.
`next` is still to big to get inlined into the mir-opt/pre-codegen/ tests, but if I bump the inline threshold to force it to show the whole thing, this implementation is also less MIR:
```
> git diff --numstat
241 370 tests/mir-opt/pre-codegen/slice_iter.forward_loop.PreCodegen.after.mir
255 329 tests/mir-opt/pre-codegen/slice_iter.reverse_loop.PreCodegen.after.mir
184 216 tests/mir-opt/pre-codegen/slice_iter.slice_iter_mut_next_back.PreCodegen.after.mir
182 254 tests/mir-opt/pre-codegen/slice_iter.slice_iter_next.PreCodegen.after.mir
```
(That's ≈70 lines less for `Iter::next`, for example.)
r? `@ghost`
~~Built atop #111282, so draft until that lands.~~
Shrink `SelectionError` a lot
`SelectionError` used to be 80 bytes (on 64 bit). That's quite big. Especially because the selection cache contained `Result<_, SelectionError>. The Ok type is only 32 bytes, so the 80 bytes significantly inflate the size of the cache.
Most variants of the `SelectionError` seem to be hard errors, only `Unimplemented` shows up in practice (for cranelift-codegen, it occupies 23.4% of all cache entries). We can just box away the biggest variant, `OutputTypeParameterMismatch`, to get the size down to 16 bytes, well within the size of the Ok type inside the cache.
Use proper impl self type for alias impl in rustdoc
We don't want to use `type_of(type_alias)`, we want to use `type_of(impl)` -- this will give us the self type of the impl *properly substituted* in the case that it's an alias.
Fixes#111420
vec-shrink-panik: update expectations to work on LLVM 17
For some reason, the called function is `cleanup` on LLVM 17 instead of `filter`.
r? `@Amanieu`
Isolate coverage FFI type layouts from their underlying LLVM C++ types
I noticed that several of the types used to send coverage information through FFI are not properly isolated from the layout of their corresponding C++ types in the LLVM API.
This PR adds more explicitly-defined FFI struct/enum types in `CoverageMappingWrapper.cpp`, so that Rust source files in `rustc_codegen_ssa` and `rustc_codegen_llvm` aren't directly exposed to LLVM C++ types.
Fix mishandled `--check-cfg` arguments order
This PR fixes a bug in `--check-cfg` where the order of `--check-cfg=names(a)` and `--check-cfg=values(a,…)` would trip the compiler.
Fixes https://github.com/rust-lang/rust/issues/111291
cc `@taiki-e` `@petrochenkov`
Prevent ICE with broken borrow in closure
r? `@Nilstrieb`
Fixes#108683
This solution isn't ideal, I'm hoping to find a way to continue compilation without ICEing.
Optimize dataflow-const-prop place-tracking infra
Optimization opportunities found while investigating https://github.com/rust-lang/rust/pull/110719
Computing places breadth-first ensures that we create short projections before deep projections, since the former are more likely to be propagated.
The most relevant is the pre-computation of flooded places. Callgrind showed `flood_*` methods and especially `preorder_preinvoke` were especially hot. This PR attempts to pre-compute the set of `ValueIndex` that `preorder_invoke` would visit.
Using this information, we make some `PlaceIndex` inaccessible when they contain no `ValueIndex`, allowing to skip computations for those places.
cc `@jachris` as original author
Currently, slice iterators over ZSTs store `end = start.wrapping_byte_add(len)`.
That's slightly convenient for `is_empty`, but kinda annoying for pretty much everything else -- see bugs like 42789, for example.
This PR instead changes it to just `end = ptr::invalid(len)` instead.
That's easier to think about (IMHO, at least) as well as easier to represent.
Include the current Crate name in the measureme output name
See https://rust-lang.zulipchat.com/#narrow/stream/182449-t-compiler.2Fhelp/topic/measureme.20flamegraph.20panics/near/356367013
cc `@andjo403`
Currently, attempting to use `MIRIFLAGS=-Zmiri-measureme=miri cargo miri test` on a crate with multiple test targets (which is very common) will produce a corrupted measureme output file, because the various interpreter processes will stomp each other's output.
This change does not entirely prevent this, but the various test targets seem to always have different crate names, so if nothing else this will make the broken measureme files much harder to encounter by accident, while also making it clear what they are all for.
Don't force include Windows goop when documenting
Why do we need to include all the windows bits on non-windows platforms? Let's try not doing that.
Possible alternative to #111394, if it works.
Switch to `EarlyBinder` for `thir_abstract_const` query
Part of the work to finish https://github.com/rust-lang/rust/issues/105779.
This PR adds `EarlyBinder` to the return type of the `thir_abstract_const` query and removes `bound_abstract_const`.
r? `@compiler-errors`
Fix incorrect implication of transmuting slices
transmute<&[u8]> would be useful and as a beginner it is confusing to see documents casually confuse the types of &[u8] and [u8; SZ]
Encode types in SMIR
The first commit makes sure we can actually store a Ty<'tcx> (with the lifetime) in the thread local and get it back out. The second commit then introduces types.
r? `@spastorino`
Make alias bounds sound in the new solver (take 2)
Make alias bounds sound in the new solver (in a way that does not require coinduction) by only considering them for projection types whose corresponding trait refs come from a param-env candidate.
That is, given `<T as Trait>::Assoc: Bound`, we only *really* need to consider the alias bound if `T: Trait` is satisfied via a param-env candidate. If it's instead satisfied, e.g., via an user provided impl candidate or a , then that impl should have a concrete type to which we could otherwise normalize `<T as Trait>::Assoc`, and that concrete type is then responsible to prove the `Bound` on it.
Similar consideration is given to opaque types, since we only need to consider alias bounds if we're *not* in reveal-all mode, since similarly we'd be able to reveal the opaque types and prove any bounds that way.
This does not remove that hacky "eager projection replacement" logic from object bounds, which are somewhat like alias bounds. But removing this eager normalization behavior (added in #108333) would require full coinduction to be enabled. Compare to #110628, which does remove this object-bound custom logic but requires coinduction to be sound.
r? `@lcnr`
Support linking to rust dylib with --crate-type staticlib
This allows for example dynamically linking libstd, while statically linking the user crate into an executable or C dynamic library. For this two unstable flags (`-Z staticlib-allow-rdylib-deps` and `-Z staticlib-prefer-dynamic`) are introduced. Without the former you get an error. The latter is the equivalent to `-C prefer-dynamic` for the staticlib crate type to indicate that dynamically linking is preferred when both options are available, like for libstd. Care must be taken to ensure that no crate ends up being merged into two distinct staticlibs that are linked together. Doing so will cause a linker error at best and undefined behavior at worst. In addition two distinct staticlibs compiled by different rustc may not be combined under any circumstances due to some rustc private symbols not being mangled.
To successfully link a staticlib, `--print native-static-libs` can be used while compiling to ask rustc for the linker flags necessary when linking the staticlib. This is an existing flag which previously only listed native libraries. It has been extended to list rust dylibs too. Trying to locate libstd yourself to link against it is not supported and may break if for example the libstd of multiple rustc versions are put in the same directory.
For an example on how to use this see the `src/test/run-make-fulldeps/staticlib-dylib-linkage/` test.
