This helper function was meant to reduce code duplication between
const-checking pre- and post-drop-elaboration. Most of the functionality
is only relevant for the pre-drop-elaboration pass.
bootstrap: Always build for host, even when target is given
This changes the behavior from *not* building for host whenever an
explicit target is specified. I find this much less confusing.
You can still disable host steps by passing an explicit empty list for
host.
Fixes#76990.
r? `@Mark-Simulacrum`
This was added in https://github.com/rust-lang/rust/pull/53076 because
several dependencies were using `cfg(dox)` instead of `cfg(rustdoc)`.
I ran `rg 'cfg\(dox\)'` on the source tree with no matches, so I think
this is now safe to remove.
Liveness refactoring continued
* Move body_owner field from IrMaps to Liveness (the only user of the field).
* Use upvars instead of FnKind to check for closures (avoids FnKind, will be useful when checking all bodies, not just fns).
* Use visit_param to add variables corresponding to params.
* Store upvars_mentioned inside Liveness struct.
* Inline visitor implementation for IrMaps, avoiding unnecessary indirection.
* Test interaction with automatically_derived attribute (not covered by any of existing tests).
No functional changes intended.
Refactor versions detection in build-manifest
This PR refactors how `build-manifest` handles versions, making the following changes:
* `build-manifest` now detects the "package releases" on its own, without relying on rustbuild providing them through CLI arguments. This drastically simplifies calling the tool outside of `x.py`, and will allow to ship the prebuilt tool in a tarball in the future, with the goal of stopping to invoke `x.py` during `promote-release`.
* The `tar` command is not used to extract the version and the git hash from tarballs anymore. The `flate2` and `tar` crates are used instead. This makes detecting those pieces of data way faster, as the archive is decompressed just once and we stop parsing the archive once all the information is retrieved.
* The code to extract the version and the git hash now stores all the collected data dynamically, without requiring to add new fields to the `Builder` struct every time.
I tested the changes locally and it should behave the same as before.
r? `@Mark-Simulacrum`
Resolve `crate` in intra-doc links properly across crates
Closes https://github.com/rust-lang/rust/issues/77193; see https://github.com/rust-lang/rust/issues/77193#issuecomment-699065946 for an explanation of what's going on here.
~~This also fixes the BTreeMap docs that have been broken for a while; see the description on the second commit for why and how.~~ Nope, see the second commit for why the link had to be changed.
r? `@Manishearth`
cc `@dylni`
`@dylni` note that this doesn't solve your original problem - now _both_ `with_code` and `crate::with_code` will be broken links. However this will fix a lot of other broken links (in particular I think https://docs.rs/sqlx/0.4.0-beta.1/sqlx/query/struct.Query.html is because of this bug). I'll open another issue for resolving additional docs in the new scope.
expand: Stop normalizing `NtIdent`s before passing them to built-in macros
Built-in macros should be able to deal with `NtIdents` in the input by themselves like any other parser code.
You can't imagine how bad mutable AST visitors are, *especially* if they are modifying tokens.
This is one step towards removing token visiting from the visitor infrastructure (https://github.com/rust-lang/rust/pull/77271 also works in this direction.)
Optimize `IntRange::from_pat`, then shrink `ParamEnv`
Resolves#77058.
r? `@Mark-Simulacrum`
cc `@vandenheuvel`
Looking at the output of `perf report` for #76244, the hot instructions seemed to be around the call to `pat_constructor` in `IntRange::from_pat`. I carried out an obvious optimization, but it actually made the instruction count higher (see #77075). However, it seems to have mitigated whatever was causing the pipeline stalls, so when combined with #76244, it's a net win.
As you can see below, the regression in #76244 seems to have originated from something measured by `stalled-cycles-backend`. I'll try to collect some finer-grained stats to see if I can isolate it. I wish I had a better idea of what was going on here. I'd like to prevent the regression from reappearing in the future due to small changes in unrelated code.
<details>
<summary>Current `master`:</summary>
```
Performance counter stats for 'cargo +baseline-stage1 check':
2,275.67 msec task-clock:u # 0.998 CPUs utilized
0 context-switches:u # 0.000 K/sec
0 cpu-migrations:u # 0.000 K/sec
49,826 page-faults:u # 0.022 M/sec
5,117,221,678 cycles:u # 2.249 GHz
299,655,943 stalled-cycles-frontend:u # 5.86% frontend cycles idle
2,284,213,395 stalled-cycles-backend:u # 44.64% backend cycles idle
8,051,871,959 instructions:u # 1.57 insn per cycle
# 0.28 stalled cycles per insn
1,359,589,402 branches:u # 597.447 M/sec
7,359,347 branch-misses:u # 0.54% of all branches
2.281030026 seconds time elapsed
2.108197000 seconds user
0.164183000 seconds sys
```
</details>
<details>
<summary>Shrink `ParamEnv` without changing `IntRange::from_pat`:</summary>
```
Performance counter stats for 'cargo +perf-stage1 check':
2,751.79 msec task-clock:u # 0.996 CPUs utilized
0 context-switches:u # 0.000 K/sec
0 cpu-migrations:u # 0.000 K/sec
50,103 page-faults:u # 0.018 M/sec
6,260,590,019 cycles:u # 2.275 GHz
317,355,920 stalled-cycles-frontend:u # 5.07% frontend cycles idle
3,397,743,582 stalled-cycles-backend:u # 54.27% backend cycles idle
8,276,224,367 instructions:u # 1.32 insn per cycle
# 0.41 stalled cycles per insn
1,370,453,386 branches:u # 498.023 M/sec
7,281,031 branch-misses:u # 0.53% of all branches
2.763265838 seconds time elapsed
2.544578000 seconds user
0.204548000 seconds sys
```
</details>
<details>
<summary>Shrink `ParamEnv` and change `IntRange::from_pat`: </summary>
```
Performance counter stats for 'cargo +perf-stage1 check':
2,295.57 msec task-clock:u # 0.996 CPUs utilized
0 context-switches:u # 0.000 K/sec
0 cpu-migrations:u # 0.000 K/sec
49,959 page-faults:u # 0.022 M/sec
5,151,407,066 cycles:u # 2.244 GHz
324,517,829 stalled-cycles-frontend:u # 6.30% frontend cycles idle
2,301,671,001 stalled-cycles-backend:u # 44.68% backend cycles idle
8,130,868,329 instructions:u # 1.58 insn per cycle
# 0.28 stalled cycles per insn
1,356,618,512 branches:u # 590.972 M/sec
7,323,800 branch-misses:u # 0.54% of all branches
2.304509653 seconds time elapsed
2.128090000 seconds user
0.163909000 seconds sys
```
</details>
Makes progress towards #43081
In PR #73084, we started recursively expanded nonterminals during the
pretty-print/reparse check, allowing them to be properly compared
against the reparsed tokenstream.
Unfortunately, the recursive logic in that PR only handles the case
where a nonterminal appears inside a `TokenTree::Delimited`. If a
nonterminal appears directly in the expanded tokens of another
nonterminal, the inner nonterminal will not be expanded.
This PR fixes the recursive expansion of nonterminals, ensuring that
they are expanded wherever they occur.
Add zero padding
Add benchmarks for fmt u128
This tests both when there is the max amount of work(all characters used)
And least amount of work(1 character used)