Rollup of 8 pull requests
Successful merges:
- #108754 (Retry `pred_known_to_hold_modulo_regions` with fulfillment if ambiguous)
- #108759 (1.41.1 supported 32-bit Apple targets)
- #108839 (Canonicalize root var when making response from new solver)
- #108856 (Remove DropAndReplace terminator)
- #108882 (Tweak E0740)
- #108898 (Set `LIBC_CHECK_CFG=1` when building Rust code in bootstrap)
- #108911 (Improve rustdoc-gui/tester.js code a bit)
- #108916 (Remove an unused return value in `rustc_hir_typeck`)
Failed merges:
r? `@ghost`
`@rustbot` modify labels: rollup
Do not consider `&mut *x` as mutating `x` in `CopyProp`
This PR removes an unfortunate overly cautious case from the current implementation.
Found by https://github.com/rust-lang/rust/pull/105274 cc `@saethlin`
Set `LIBC_CHECK_CFG=1` when building Rust code in bootstrap
Downstream forks of the Rust compiler might want to use a custom `libc` to add support for targets that are not yet available upstream. Adding a patch to replace `libc` with a custom one would cause compilation errors though, because Cargo would interpret the custom `libc` as part of the workspace, and apply the check-cfg lints on it.
Since https://github.com/rust-lang/libc/pull/3037, the `libc` build script emits check-cfg flags only when the `LIBC_CHECK_CFG` environment variable is set, so this PR allows the use of custom `libc`s.
Canonicalize root var when making response from new solver
During trait solving, if we equate two inference variables `?0` and `?1` but don't equate them with any rigid types, then `InferCtxt::probe_ty_var` will return `Err` for both of these. The canonicalizer code will then canonicalize the variables independently(!), and the response will not reflect the fact that these two variables have been made equal.
This hinders inference and I also don't think it's sound? I haven't thought too much about it past that, so let's talk about it.
r? ``@lcnr``
Retry `pred_known_to_hold_modulo_regions` with fulfillment if ambiguous
Fixes#108721
The problem here is that when we're checking `is_sized_raw` during codegen on some type that has a lot of opaques in it, something emits several nested obligations that are individually ambiguous, but when processed together in a loop then apply modulo regions. Since the `evaluate_predicates_recursively` inner loop doesn't process predicates until they stop changing, we return `EvaluatedToAmbig`, which makes the sized check return false incorrectly. See:
f15f0ea739/compiler/rustc_trait_selection/src/traits/select/mod.rs (L596-L606)
... Compared to the analogous loop in the new solver:
f15f0ea739/compiler/rustc_trait_selection/src/solve/mod.rs (L481-L512)
To fix this, if we get ambiguous during `pred_known_to_hold_modulo_regions`, just retry the obligation in a fulfillment context.
--
Unfortunately... I don't have a test for this. I've only tested this locally. Pending minimization :/
r? types
Rename `MapInPlace` as `FlatMapInPlace`.
After removing the `map_in_place` method, which isn't much use because modifying every element in a collection such as a `Vec` can be done trivially with iteration.
r? ``@lqd``
Suppress copy impl error when post-normalized type references errors
Suppress spurious errors from the `Copy` impl validity check when fields have bad types *post*-normalization, instead of just pre-normalization.
----
The const-generics test regressed recently due to #107965, cc `````@BoxyUwU.`````
* I think it's because `[_; 0u32]: Copy` now fails to hold because a nested obligation `ConstArgHasType(0u32, usize)` fails.
* It's interesting that `[const_error]` shows up in the type only after normalization, though, but I'm pretty sure that it's due to the evaluate call that happens when normalizing unevaluated consts.
StableMIR: Proof-of-concept implementation + test
This PR is part of the [project Stable MIR](https://github.com/rust-lang/project-stable-mir). The PR deletes old re-exports from rustc_smir and introduces a proof-of-concept implementation for APIs to retrieve crate information.
The implementation follows the [design described here](https://hackmd.io/XhnYHKKuR6-LChhobvlT-g?view), but instead of using separate crates for the implementation, it uses separate modules inside `rustc_smir`.
The API introduced at this point should be seen just as an example on how we are planning to structure the communication between tools and the compiler.
I have not explored yet what should be the right granularity, the best starting point for users, neither the best way to implement it.
r? ``````@oli-obk``````
To avoid generating a FOUC at startup, this commit uses `document.write` to
load the stylesheet initially.
Co-Authored-By: Guillaume Gomez <guillaume1.gomez@gmail.com>
Currently tidy does not consider code in target_family as
platform-specific. I think this is erroneous and should be fixed.
Signed-off-by: Ayush Singh <ayushsingh1325@gmail.com>
2 commits in 1334b059c6dcceab3c10c81413f79bb832c8d9d..7d3033d2e59383fd76193daf9423c3d141972a7d
2023-03-07 19:21:50 +0000 to 2023-03-08 17:05:08 +0000
- Revert "rust-lang/cargo#11738" - Use test name for dir when running tests (rust-lang/cargo#11812)
- Update CHANGELOG for 1.68 backports (rust-lang/cargo#11810)
always resolve to universal regions if possible
`RegionConstraintCollector::opportunistic_resolve_var`, which is used in canonicalization and projection logic, doesn't resolve the region var to an equal universal region. So if we have equated `'static == '1 == '2`, it doesn't resolve `'1` or `'2` to `'static`. Now it does!
Addresses review comment https://github.com/rust-lang/rust/pull/107376#discussion_r1093233687.
r? `@lcnr`
In case a variable is unified with two universal regions from different
universes, use the one with the lower universe as it has a higher chance
of being compatible with the variable.
Import rust-installer & adjust compression settings
This brings in rust-lang/rust-installer#123, which enables a larger compression window (8 -> 64MB) amongst other changes to the xz compression settings. The net effect should be smaller compressed tarballs which will decrease bandwidth usage for
static.rust-lang.org, download times, and decompression time.
This comes at the cost of higher baseline requirements for running rustup to use these files, which we believe should be largely acceptable (running rustc is likely to use at least this much memory) but if we get specific reports we may explore options to decrease impact (e.g., using the gzip tarballs automatically in rustup).
To simplify iteration on compression settings this also imports the rust-lang/rust-installer submodule, it is now hosted fully inside rust-lang/rust. Once we land this I'll file a followup to add a note to that repo and we can subsequently archive it.
--
CI times for dist-x86_64-linux builds:
* threads=6, master - 2h 50m
* threads=1, new - 3h 40m
* threads=6, new - 2h 50m
Do not implement HashStable for HashSet (MCP 533)
This PR removes all occurrences of `HashSet` in query results, replacing it either with `FxIndexSet` or with `UnordSet`, and then removes the `HashStable` implementation of `HashSet`. This is part of implementing [MCP 533](https://github.com/rust-lang/compiler-team/issues/533), that is, removing the `HashStable` implementations of all collection types with unstable iteration order.
The changes are mostly mechanical. The only place where additional sorting is happening is in Miri's override implementation of the `exported_symbols` query.
After removing the `map_in_place` method, which isn't much use because
modifying every element in a collection such as a `Vec` can be done
trivially with iteration.