Previously `std::fs::File::metadata` on wasm32-wasi would call `fd_filestat_get`
to get metadata associated with fd, but that fd is opened without
RIGHTS_FD_FILESTAT_GET right, so it will failed on correctly implemented WASI
environment.
This change instead to add the missing rights when opening an fd.
Make `Option::unwrap` unstably const
This is lumped into the `const_option` feature gate (#67441), which enables a potpourri of `Option` methods.
cc @rust-lang/wg-const-eval
r? @oli-obk
Rust function-level coverage now works on external crates
Follow-up to a known issue discussed (post-merge) in #74733:
Resolves a known issue in the coverage map where some regions had nonsensical source code locations.
External crate functions are already included in their own coverage maps, per library, and don't need to also
be added to the importing crate's coverage map. (In fact, their source start and end byte positions are not relevant to the importing crate's SourceMap.)
The fix was to simply skip trying to add imported coverage info to the coverage map if the instrumented function is not "local".
The injected counters are still relevant, however, and the LLVM `instrprof.increment` intrinsic call parameters will map those counters to the external crates' coverage maps, when generating runtime coverage data.
Now Rust Coverage can cleanly instrument and analyze coverage on an entire crate and its dependencies.
Example (instrumenting https://github.com/google/json5format):
```bash
$ ./x.py build rust-demangler # make sure the demangler is built
$ cd ~/json5format
$ RUSTC=$HOME/rust/build/x86_64-unknown-linux-gnu/stage1/bin/rustc \
RUSTFLAGS="-Zinstrument-coverage" \
cargo build --example formatjson5
$ LLVM_PROFILE_FILE="formatjson5.profraw" \
./target/debug/examples/formatjson5 session_manager.cml
$ ~/rust/build/x86_64-unknown-linux-gnu/llvm/bin/llvm-profdata merge \
-sparse formatjson5.profraw -o formatjson5.profdata
$ ~/rust/build/x86_64-unknown-linux-gnu/llvm/bin/llvm-cov show --use-color \
--instr-profile=formatjson5.profdata target/debug/examples/formatjson5 \
--show-line-counts-or-regions \
--Xdemangler=$HOME/rust/build/x86_64-unknown-linux-gnu/stage0-tools-bin/rust-demangler \
--show-instantiations \
2>&1 | less -R
```
(Scan forward for some of the non-zero coverage results, with `/^....[0-9]\| *[^ |0]`.)
<img width="1071" alt="Screen Shot 2020-07-30 at 1 21 01 PM" src="https://user-images.githubusercontent.com/3827298/88970627-97e43000-d267-11ea-8e4d-fe40a091f756.png">
Add `--output-format json` for Rustdoc on nightly
This enables the previously deprecated `--output-format` flag so it can be used on nightly to host the experimental implementation of [rfc/2963](https://github.com/rust-lang/rfcs/pull/2963). The actual implementation will come in later PRs so for now there's just a stub that gives you an ICE.
I'm _pretty_ sure that the logic I added makes it inaccessible from stable, but someone should double check that. @tmandry @jyn514
Improve diagnostics when constant pattern is too generic
This PR is a follow-up to PR #74538 and issue #73976
When constants queries Layout, TypeId or type_name of a generic parameter, instead of emitting `could not evaluate constant pattern`, we will instead emit a more detailed message `constant pattern depends on a generic parameter`.
rustc: Ignore fs::canonicalize errors in metadata
This commit updates the metadata location logic to ignore errors when
calling `fs::canonicalize`. Canonicalization was added historically so
multiple `-L` paths to the same directory don't print errors about
multiple candidates (since rustc can deduplicate same-named paths), but
canonicalization doesn't work on all filesystems. Cargo, for example,
always uses this sort of fallback where it will opportunitistically try
to canonicalize but fall back to using the input path if it otherwise
doesn't work.
If rustc is run on a filesystem that doesn't support canonicalization
then the effect of this change will be that `-L` paths which logically
point to the same directory will cause errors, but that's a rare enough
occurrence it shouldn't cause much issue in practice. Otherwise rustc
doesn't work at all today on those sorts of filesystem where
canonicalization isn't supported!
Enable docs on dist-x86_64-musl
Add the `rust-docs` component to toolchain `x86_64-unknown-linux-musl`, which allows people using rustup on their musl-based linux distribution to download the rust-docs.
`--disable-docs` is based on the assumption that `x86_64-unknown-linux-musl` is only a cross-compile target.
I have tested that the docs are built. I assume the build-system will automatically detect the docs and create a `rust-docs` component. I will [monitor](https://rust-lang.github.io/rustup-components-history/x86_64-unknown-linux-musl.html) the components and create a follow-up PR, if the docs aren't published.
See also #70619, where we enabled `rust-lld` to enable the wasm-workflow on musl-based linux distributions.
Don't use "weak count" around Weak::from_raw_ptr
As `Rc/Arc::weak_count` returns 0 when having no strong counts, this
could be confusing and it's better to avoid using that completely.
Closes#73840.
`Result::unwrap` is not eligible becuase it formats the contents of the
`Err` variant. `unwrap_or`, `unwrap_or_else` and friends are not
eligible because they drop things or invoke closures.
Fixed a known issue in the coverage map where some regions had
nonsensical source code locations. External crate functions are already
included in their own coverage maps, per library, and don't need to also
be added to the importing crate's coverage map. (In fact, their source
start and end byte positions are not relevant to the importing crate's
SourceMap.)
The fix was to simply skip trying to add imported coverage info to the
coverage map if the instrumented function is not "local".
The injected counters are still relevant, however, and the LLVM
`instrprof.increment` intrinsic call parameters will map those counters
to the external crates' coverage maps, when generating runtime coverage
data.
This commit updates the metadata location logic to ignore errors when
calling `fs::canonicalize`. Canonicalization was added historically so
multiple `-L` paths to the same directory don't print errors about
multiple candidates (since rustc can deduplicate same-named paths), but
canonicalization doesn't work on all filesystems. Cargo, for example,
always uses this sort of fallback where it will opportunitistically try
to canonicalize but fall back to using the input path if it otherwise
doesn't work.
If rustc is run on a filesystem that doesn't support canonicalization
then the effect of this change will be that `-L` paths which logically
point to the same directory will cause errors, but that's a rare enough
occurrence it shouldn't cause much issue in practice. Otherwise rustc
doesn't work at all today on those sorts of filesystem where
canonicalization isn't supported!