Historically we've disabled these assertions on a number of platforms with the
goal of speeding up CI. Now, though, having migrated to GitHub actions, CI is
already pretty fast, and these debug assertions do bring us some value.
This does leave in some debug assertions that are performance-related: macOS
currently hovers at just under 2 hours.
There are also some other builders which have debug and LLVM assertions
disabled:
llvm-8, PR builder:
In one view, this builder tests our support for older LLVMs. But in reality, a
lot of our tests already disable themselves on older LLVMs, and I think our
general stance is that we really only support the in-tree LLVM. Plus, we really
want CI times on this builder to be really low, as it's run on *every* PR --
that's a lot of CI time.
test-various:
This disables debug asserts still -- as noted in the Dockerfile, we test code
size, and we need debug asserts off for that to work well.
Rollup of 15 pull requests
Successful merges:
- #74979 (`#![deny(unsafe_op_in_unsafe_fn)]` in sys/hermit)
- #78006 (Use Intra-doc links for std::io::buffered)
- #78167 (Fix unreachable sub-branch detection in or-patterns)
- #78514 (Allow using 1/2/3/4 for `x.py setup` options)
- #78538 (BTreeMap: document a curious assumption in test cases)
- #78559 (Add LLVM upgrades from 7 to 10 to RELEASES.md)
- #78666 (Fix shellcheck error)
- #78705 (Print a summary of which test suite failed)
- #78726 (Add link to rust website)
- #78730 (Expand explanation of reverse_bits)
- #78760 (`deny(invalid_codeblock_attributes)` for rustc_error_codes)
- #78771 (inliner: Copy unevaluated constants only after successful inlining)
- #78794 (rustc_expand: use collect_bang helper instead of manual reimplementation)
- #78795 (The renumber pass is long gone)
- #78798 (Fixing Spelling Typos)
Failed merges:
r? `@ghost`
`@rustbot` modify labels: rollup
The renumber pass is long gone
Originally, there has been a dedicated pass for renumbering
AST NodeIds to have actual values. This pass had been added by
commit a5ad4c3794.
Then, later, this step was moved to where it resides now,
macro expansion. See commit c86c8d41a2
or PR #36438.
The comment snippet, added by the original commit, has
survived the times without any change, becoming outdated
at removal of the dedicated pass.
Nowadays, grepping for the next_node_id function will show up
multiple places in the compiler that call it, but the main
rewriting that the comment talks about is still done in the
expansion step, inside an innocious looking visit_id function
that's called during macro invocation collection.
inliner: Copy unevaluated constants only after successful inlining
Inliner copies the unevaluated constants from the callee body to the
caller at the point where decision to inline is yet to be made. The
constants will be unnecessary if inlining were to fail.
Organize the code moving items from callee to the caller together in one
place to avoid the issue.
Add link to rust website
Fixes#30838
This doesn't fix the issue as suggested but it at least adds a link to allow to go back to the rust website.
r? `@steveklabnik`
Print a summary of which test suite failed
Especially on CI, where cross-compiling is common and single builder may end up
with multiple hosts and multiple targets, it can be annoying to scroll back to
the nearest start of test marker. This prints out a summary of the test suite
being run directly in compiletest.
For example, on a mir-opt failure, this would show something like this:
```
failures:
[mir-opt] mir-opt/while-storage.rs
test result: FAILED. 140 passed; 1 failed; 2 ignored; 0 measured; 0 filtered out
Some tests failed in compiletest suite=mir-opt mode=mir-opt host=x86_64-unknown-linux-gnu target=x86_64-unknown-linux-gnu
```
Fixes#78517
Fix unreachable sub-branch detection in or-patterns
The previous implementation was too eager to avoid unnecessary "unreachable pattern" warnings. I feel more confident about this implementation than I felt about the previous one.
Fixes https://github.com/rust-lang/rust/issues/76836.
``@rustbot`` modify labels: +A-exhaustiveness-checking
Use Intra-doc links for std::io::buffered
Helps with #75080. I used the implicit link style for intrinsics, as that was what `minnumf32` and others already had.
``@rustbot`` modify labels: T-doc, A-intra-doc-links
r? ``@jyn514``
`#![deny(unsafe_op_in_unsafe_fn)]` in sys/hermit
Partial fix of #73904.
This encloses ``unsafe`` operations in ``unsafe fn`` in ``sys/hermit``.
Some unsafe blocks are not well documented because some system-based functions lack documents.
Partially fix#55002, deprecate in another release
Co-authored-by: Ashley Mannix <kodraus@hey.com>
Update stable version for stabilize_spin_loop
Co-authored-by: Joshua Nelson <joshua@yottadb.com>
Use better example for spinlock
As suggested by KodrAus
Remove renamed_spin_loop already available in master
Fix spin loop example
Fix `x.py clippy`
I don't think this ever worked.
Fixes https://github.com/rust-lang/rust/issues/77309. `--fix` support is a work in progress, but works for a very small subset of `libtest`.
This works by using the host `cargo-clippy` driver; it does not use `stage0.txt` at all. To mitigate confusion from this, it gives an error if you don't have `rustc +nightly` as the default rustc in `$PATH`. Additionally, it means that bootstrap can't set `RUSTC`; this makes it no longer possible for clippy to detect the sysroot itself. Instead, bootstrap passes the sysroot to cargo.
r? `@ghost`
Working expression optimization, and some improvements to branch-level source coverage
This replaces PR #78040 after reorganizing the original commits (by request) into a more logical sequence of major changes.
Most of the work is in the MIR `transform/coverage/` directory (originally, `transform/instrument_coverage.rs`).
Note this PR includes some significant additional debugging capabilities, to help myself and any future developer working on coverage improvements or issues.
In particular, there's a new Graphviz (.dot file) output for the coverage graph (the `BasicCoverageBlock` control flow graph) that provides ways to get some very good insight into the relationships between the MIR, the coverage graph BCBs, coverage spans, and counters. (There are also some cool debugging options, available via environment variable, to alter how some data in the graph appears.)
And the code for this Graphviz view is actually generic... it can be used by any implementation of the Rust `Graph` traits.
Finally (for now), I also now output information from `llvm-cov` that shows the actual counters and spans it found in the coverage map, and their counts (from the `--debug` flag). I found this to be enormously helpful in debugging some coverage issues, so I kept it in the test results as well for additional context.
`@tmandry` `@wesleywiser`
r? `@tmandry`
Here's an example of the new coverage graph:
* Within each `BasicCoverageBlock` (BCB), you can see each `CoverageSpan` and its contributing statements (MIR `Statement`s and/or `Terminator`s)
* Each `CoverageSpan` has a `Counter` or and `Expression`, and `Expression`s show their Add/Subtract operation with nested operations. (This can be changed to show the Counter and Expression IDs instead, or in addition to, the BCB.)
* The terminators of all MIR `BasicBlock`s in the BCB, including one final `Terminator`
* If an "edge counter" is required (because we need to count an edge between blocks, in some cases) the edge's Counter or Expression is shown next to its label. (Not shown in the example below.) (FYI, Edge Counters are converted into a new MIR `BasicBlock` with `Goto`)
<img width="1116" alt="Screen Shot 2020-10-17 at 12 23 29 AM" src="https://user-images.githubusercontent.com/3827298/96331095-616cb480-100f-11eb-8212-60f2d433e2d8.png">
r? `@tmandry`
FYI: `@wesleywiser`
And even though CI should now pass for MacOS, the llvm-cov show --debug
flag does not work when developing outside of CI, so I'm disabling it
for MacOS by default.
And restored missing error message from llvm-cov show
And since some CI builds disable LLVM assertions (which disables the
--debug option in llvm-cov show), I check to see if LLVM assertions are
disabled, and if so, I don't add --debug and don't check the counter
file diffs.
More portable way to make python 2/3 portable.
Strip Args line (with hardcoded paths) from debug counters output.
Ignore diff failures from llvm-cov debug output files ("counters"
files), since generic function instantiations will appear in those files
with mangled names. (Sadly, the demangler is apparently not applied to
the debug output.)
Implementing the Graph traits for the BasicCoverageBlock
graph.
optimized replacement of counters with expressions plus new BCB graphviz
* Avoid adding coverage to unreachable blocks.
* Special case for Goto at the end of the body. Make it non-reportable.
Improved debugging and formatting options (from env)
Don't automatically add counters to BCBs without CoverageSpans. They may
still get counters but only if there are dependencies from
other BCBs that have spans, I think.
Make CodeRegions optional for Counters too. It is
possible to inject counters (`llvm.instrprof.increment` intrinsic calls
without corresponding code regions in the coverage map. An expression
can still uses these counter values.
Refactored instrument_coverage.rs -> instrument_coverage/mod.rs, and
then broke up the mod into multiple files.
Compiling with coverage, with the expression optimization, works on
the json5format crate and its dependencies.
Refactored debug features from mod.rs to debug.rs
Originally, there has been a dedicated pass for renumbering
AST NodeIds to have actual values. This pass had been added by
commit a5ad4c3794.
Then, later, this step was moved to where it resides now,
macro expansion. See commit c86c8d41a2
or PR #36438.
The comment snippet, added by the original commit, has
survived the times without any change, becoming outdated
at removal of the dedicated pass.
Nowadays, grepping for the next_node_id function will show up
multiple places in the compiler that call it, but the main
rewriting that the comment talks about is still done in the
expansion step, inside an innocious looking visit_id function
that's called during macro invocation collection.