`{{root}}` is supposed to be an internal-only name but it shows up in
the output.
(I'm working towards a more general fix -- a universal "joiner" function
that can be used all over the place -- but I'm not there yet, so let's
fix this one in-place for now.)
Introduce `MacroTcbCtx` that holds everything relevant to transcription.
This allows for the following changes:
* Split `transcribe_sequence` and `transcribe_metavar` out of the
heavily nested `transcribe`
* Split `metavar_expr_concat` out of `transcribe_metavar_expr`
This is a nonfunctional change.
Use the same error as other invalid types for `concat_bytes!`, rather
than using `ConcatCStrLit` from `concat!`. Also add more information
with a note about why this doesn't work, and a suggestion to use a
null-terminated byte string instead.
Currently all of its call sites construct a `LifetimeRibKind::Generics`
value, which `with_generic_param_rib` then deconstructs (and panics if
it's a different `LifetimeRibKind` variant).
This commit makes the code simpler and shorter: the call sites just pass
in the three values and `with_generic_param_rib` constructs the
`LifetimeRibKind::Generics` value from them.
This does change the logic a bit: previously, we didn't forward reverse
implications of negated features to the backend, instead relying on the backend
to handle the implication itself.
AsyncDrop trait without sync Drop generates an error
When type implements `AsyncDrop` trait, it must also implement sync `Drop` trait to be used in sync context and unwinds.
This PR adds error generation in such a case.
Fixes: rust-lang/rust#140696
use `#[align]` attribute for `fn_align`
Tracking issue: https://github.com/rust-lang/rust/issues/82232https://github.com/rust-lang/rfcs/pull/3806 decides to add the `#[align]` attribute for alignment of various items. Right now it's used for functions with `fn_align`, in the future it will get more uses (statics, struct fields, etc.)
(the RFC finishes FCP today)
r? `@ghost`
Don't build `ParamEnv` and do trait solving in `ItemCtxt`s when lowering IATs
Fixesrust-lang/rust#108491Fixesrust-lang/rust#125879
This was due to updating inhabited predicate stuff which I had to do to make constructing ADTs with IATs in fields not ICE
Fixesrust-lang/rust#136678 (but no test added, I don't rly care about weird IAT edge cases under GCE)
Fixesrust-lang/rust#138131
Avoids doing "fully correct" candidate selection for IATs during hir ty lowering when in item signatures as it almost always leads to a query cycle from trying to build a `ParamEnv`. I replaced it with a use `DeepRejectCtxt` which should be able to handle this kind of conservative "could these types unify" while in a context where we don't want to do type equality.
This is a relatively simple scheme and should be forwards compatible with doing something more complex/powerful.
I'm not really sure how this interacts with rust-lang/rust#126651, though I'm also not really sure its super important to support projecting IATs from IAT self types given we don't even support `T::Assoc::Other` for trait-associated types so didn't give much thought to how this might fit in with that.
r? `@compiler-errors`
cc `@fmease`
Rollup of 6 pull requests
Successful merges:
- rust-lang/rust#135656 (Add `-Z hint-mostly-unused` to tell rustc that most of a crate will go unused)
- rust-lang/rust#138237 (Get rid of `EscapeDebugInner`.)
- rust-lang/rust#141614 (lint direct use of rustc_type_ir )
- rust-lang/rust#142123 (Implement initial support for timing sections (`--json=timings`))
- rust-lang/rust#142377 (Try unremapping compiler sources)
- rust-lang/rust#142674 (remove duplicate crash test)
r? `@ghost`
`@rustbot` modify labels: rollup
Implement initial support for timing sections (`--json=timings`)
This PR implements initial support for emitting high-level compilation section timings. The idea is to provide a very lightweight way of emitting durations of various compilation sections (frontend, backend, linker, or on a more granular level macro expansion, typeck, borrowck, etc.). The ultimate goal is to stabilize this output (in some form), make Cargo pass `--json=timings` and then display this information in the HTML output of `cargo build --timings`, to make it easier to quickly profile "what takes so long" during the compilation of a Cargo project. I would personally also like if Cargo printed some of this information in the interactive `cargo build` output, but the `build --timings` use-case is the main one.
Now, this information is already available with several other sources, but I don't think that we can just use them as they are, which is why I proposed a new way of outputting this data (`--json=timings`):
- This data is available under `-Zself-profile`, but that is very expensive and forever unstable. It's just a too big of a hammer to tell us the duration it took to run the linker.
- It could also be extracted with `-Ztime-passes`. That is pretty much "for free" in terms of performance, and it can be emitted in a structured form to JSON via `-Ztime-passes-format=json`. I guess that one alternative might be to stabilize this flag in some form, but that form might just be `--json=timings`? I guess what we could do in theory is take the already emitted time passes and reuse them for `--json=timings`. Happy to hear suggestions!
I'm sending this PR mostly for a vibeck, to see if the way I implemented it is passable. There are some things to figure out:
- How do we represent the sections? Originally I wanted to output `{ section, duration }`, but then I realized that it might be more useful to actually emit `start` and `end` events. Both because it enables to see the output incrementally (in case compilation takes a long time and you read the outputs directly, or Cargo decides to show this data in `cargo build` some day in the future), and because it makes it simpler to represent hierarchy (see below). The timestamps currently emit microseconds elapsed from a predetermined point in time (~start of rustc), but otherwise they are fully opaque, and should be only ever used to calculate the duration using `end - start`. We could also precompute the duration for the user in the `end` event, but that would require doing more work in rustc, which I would ideally like to avoid :P
- Do we want to have some form of hierarchy? I think that it would be nice to show some more granular sections rather than just frontend/backend/linker (e.g. macro expansion, typeck and borrowck as a part of the frontend). But for that we would need some way of representing hierarchy. A simple way would be something like `{ parent: "frontend" }`, but I realized that with start/end timestamps we get the hierarchy "for free", only the client will need to reconstruct it from the order of start/end events (e.g. `start A`, `start B` means that `B` is a child of `A`).
- What exactly do we want to stabilize? This is probably a question for later. I think that we should definitely stabilize the format of the emitted JSON objects, and *maybe* some specific section names (but we should also make it clear that they can be missing, e.g. you don't link everytime you invoke `rustc`).
The PR be tested e.g. with `rustc +stage1 src/main.rs --json=timings --error-format=json -Zunstable-options` on a crate without dependencies (it is not easy to use `--json` with stock Cargo, because it also passes this flag to `rustc`, so this will later need Cargo integration to be usable with it).
Zulip discussions: [#t-compiler > Outputting time spent in various compiler sections](https://rust-lang.zulipchat.com/#narrow/channel/131828-t-compiler/topic/Outputting.20time.20spent.20in.20various.20compiler.20sections/with/518850162)
MCP: https://github.com/rust-lang/compiler-team/issues/873
r? ``@nnethercote``
lint direct use of rustc_type_ir
cc rust-lang/rust#138449
As previously discussed with `@lcnr,` it is a lint to prevent direct use of rustc_type_ir, except for some internal crates (like next_trait_solver or rustc_middle for example).
Add `-Z hint-mostly-unused` to tell rustc that most of a crate will go unused
This hint allows the compiler to optimize its operation based on this assumption, in order to compile faster. This is a hint, and does not guarantee any particular behavior.
This option can substantially speed up compilation if applied to a large dependency where the majority of the dependency does not get used. This flag may slow down compilation in other cases.
Currently, this option makes the compiler defer as much code generation as possible from functions in the crate, until later crates invoke those functions. Functions that never get invoked will never have code generated for them. For instance, if a crate provides thousands of functions, but only a few of them will get called, this flag will result in the compiler only doing code generation for the called functions. (This uses the same mechanisms as cross-crate inlining of functions.) This does not affect `extern` functions, or functions marked as `#[inline(never)]`.
This option has already existed in nightly as `-Zcross-crate-inline-threshold=always` for some time, and has gotten testing in that form. However, this option is still unstable, to give an opportunity for wider testing in this form.
Some performance numbers, based on a crate with many dependencies having just *one* large dependency set to `-Z hint-mostly-unused` (using Cargo's `profile-rustflags` option):
A release build went from 4m07s to 2m04s.
A non-release build went from 2m26s to 1m28s.
CodeGen: rework Aggregate implemention for rvalue_creates_operand cases
A non-trivial refactor pulled out from rust-lang/rust#138759
r? workingjubilee
The previous implementation I'd written here based on `index_by_increasing_offset` is complicated to follow and difficult to extend to non-structs.
This changes the implementation, without actually changing any codegen (thus no test changes either), to be more like the existing `extract_field` (<2b0274c71d/compiler/rustc_codegen_ssa/src/mir/operand.rs (L345-L425)>) in that it allows setting a particular field directly.
Notably I've found this one much easier to get right, in particular because having the `OperandRef<Result<V, Scalar>>` gives a really useful thing to include in ICE messages if something did happen to go wrong.
Adds a new `rustc_attrs` attribute that stops rustc from adding any
default bounds. Useful for tests where default bounds just add noise and
make debugging harder.
This commit adds a lint to prevent the use of rustc_type_ir in random
compiler crates, except for type system internals traits, which are
explicitly allowed. Moreover, this fixes diagnostic_items() to include
the CRATE_OWNER_ID, otherwise rustc_diagnostic_item attribute is ignored
on the crate root.
