Stop creating fake HIR pattern nodes.
This replaces all the HIR patterns `rustc_const_eval` creates with the more appropriate HAIR equivalent.
The only place left that creates HIR nodes is the "explicit lifetimes in function signature" suggestion, which only creates type nodes while rebuilding the signature, but that is only in case of an error.
cc @arielb1
rustbuild: fix dist-analysis with full bootstrap disabled
Really fixes#38734, per discussion in #38752 which was solving the underlying problem the wrong way.
This just mirrors the [similar logic] in documentation building as suggested, that just takes the stage1 compiler artifacts instead in case of non-full-bootstrap builds. Actually copying the artifacts around seems to be unnecessary.
r? @alexcrichton
[similar logic]: 7b659cfdbc/src/bootstrap/doc.rs (L140-L144)
Improve naming style in rustllvm.
As per the LLVM style guide, use CamelCase for all locals and classes,
and camelCase for all non-FFI functions.
Also, make names of variables of commonly used types more consistent.
Fixes#38688.
r? @rkruppe
sparc64-linux support
This is built on top of #38656 and depends on rust-lang/libc#483
Hello world works.
The libc-test test suite passes.
`panic!` doesn't fully work:
```
$ qemu-sparc64-static ./panic
thread 'main' panicked at 'explicit panic', panic.rs:1
note: Run with `RUST_BACKTRACE=1` for a backtrace.
Illegal instruction (core dumped)
```
Backtraces don't work either, probably related to the previous point:
```
$ export RUST_BACKTRACE=1
$ qemu-sparc64-static ./panic
thread 'main' panicked at 'explicit panic', panic.rs:1
stack backtrace:
Illegal instruction (core dumped)
```
r? @alexcrichton
@jakllsch Does panicking / backtraces work on sparc64-netbsd?
cc @glaubitz
Add links to methods on all slice iterator struct docs
In the same style as `std::slice::Iter` to help people find how to create iterators.
r? @steveklabnik
Add a DroplessArena and utilize it as a more efficient arena when possible
I will collect performance (probably just `-Ztime-passes`, and more if that shows significant differences, perhaps).
6feba98 also fixes a potential infinite loop if inplace reallocation failed for `TypedArena` (and `DroplessArena` via copied code).
r? @eddyb
Gate on distcheck on Travis
This commit adds a new entry to the Travis matrix to gate on distcheck, the illustrious test process that has historically taken *8 hours* to complete and also breaks all the time on nightly. By adding it to Travis we should hope to never see nightly breakage (like https://github.com/rust-lang/rust/issues/38690) because of this ever again!
"But wait, surely we can't wait 8 hours for all PRs!" you might be thinking, and you are indeed correct. The distcheck added here is much more optimized for speed than the old buildbot instances for a number of reasons:
* We're not building *two host compilers* beforehand. The current distcheck bot does a cross for i686 Linux and x86_64 Linux before it actually runs distcheck, building 6 compilers and LLVM twice. None of this is done in parallel as well (e.g. `-j1`). Not doing any of this work will be a huge win!
* We're using sccache to compile LLVM, so it should be much faster. Distcheck on the bots didn't cache LLVM well and rebuilt it every time.
All in all, this version of "distcheck" should be exactly like other matrix entries that run tests except that it's a *little* slower to start as it has to create the source tarball then rebuild the build system in the distcheck dir. Overall this should be well under the 2 hours that Android is currently taking anyway.
Closes https://github.com/rust-lang/rust/issues/38691
i128 and u128 support
Brings i128 and u128 support to nightly rust, behind a feature flag. The goal of this PR is to do the bulk of the work for 128 bit integer support. Smaller but just as tricky features needed for stabilisation like 128 bit enum discriminants are left for future PRs.
Rebased version of #37900, which in turn was a rebase + improvement of #35954 . Sadly I couldn't reopen#37900 due to github. There goes my premium position in the homu queue...
[plugin-breaking-change]
cc #35118 (tracking issue)
As per the LLVM style guide, use CamelCase for all locals and classes,
and camelCase for all non-FFI functions.
Also, make names of variables of commonly used types more consistent.
Fixes#38688.
cargotest: Add xsv to tested crates
This was intended to land in #37149 but I ended up backing it out to land the
rollup (#38697) last night as I was itching to do so. This morning though xsv
has been fixed now (BurntSushi/xsv#53) so we should be able to add it!
rustbuild: Compile all support tools in stage0
This commit changes all tools and such to get compiled in stage0, not in
later stages. The purpose of this commit is to cut down dependencies on later
stages for future modifications to the build system. Notably we're going to be
adding builders that produce a full suite of cross-compiled artifacts for a
particular host, and that shouldn't compile the `x86_64-unknown-linux-gnu`
compiler more than once. Currently dependencies on, for example, the error index
end up compiling the `x86_64-unknown-linux-gnu` compiler more than necessary.
As a result here we move many dependencies on these tools to being produced by a
stage0 compiler, not a stage1+ compiler. None of these tools actually need to be
staged at all, so they'll exhibit consistent behavior across the stages.
rustbuild: Add more deps on android-copy-libs
The android-copy-libs step is crucial for running tests on the Android target as
it copies necessary scripts and such to the emulator. We must run that before
running any tests there, but we erroneously only did it for compiletest test
suites!
The android-copy-libs step is crucial for running tests on the Android target as
it copies necessary scripts and such to the emulator. We must run that before
running any tests there, but we erroneously only did it for compiletest test
suites!
Since discriminants do not support i128 yet, lets just calculate the boundaries within the 64 bits
that are supported. This also avoids an issue with bootstrapping on 32 bit systems due to #38727.
Partial fix for #38489.
Fixes script name resolution for windows by invoking `emcc.bat` instead of `emcc`, etc.
Remaining issue:
```
Traceback (most recent call last):
File "C:\Program Files\Emscripten\emscripten\1.35.0\\emcc", line 1309, in <module>
final = shared.Building.llvm_opt(final, link_opts, DEFAULT_FINAL)
File "C:\Program Files\Emscripten\emscripten\1.35.0\tools\shared.py", line 1471, in llvm_opt
assert os.path.exists(target), 'Failed to run llvm optimizations: ' + output
AssertionError: Failed to run llvm optimizations:
```
This was intended to land in #37149 but I ended up backing it out to land the
rollup (#38697) last night as I was itching to do so. This morning though xsv
has been fixed now (BurntSushi/xsv#53) so we should be able to add it!
This commit adds a new entry to the Travis matrix which performs a "distcheck",
which basically means that we create a tarball, extract that tarball, and then
build/test inside there. This ensures that the tarballs we produce are actually
able to be built/tested!
Along the way this also updates the rustbuild distcheck definition to propagate
the configure args from the top-level invocation.
Closes#38691
The source tarball creation step would attempt to skip a number of files that we
want to ignore ourselves, but once we've hit the vendor directory we don't want
to skip anything so be sure to vendor everything inside that directory.
Closes#38690
This commit changes all tools and such to get compiled in stage0, not in
later stages. The purpose of this commit is to cut down dependencies on later
stages for future modifications to the build system. Notably we're going to be
adding builders that produce a full suite of cross-compiled artifacts for a
particular host, and that shouldn't compile the `x86_64-unknown-linux-gnu`
compiler more than once. Currently dependencies on, for example, the error index
end up compiling the `x86_64-unknown-linux-gnu` compiler more than necessary.
As a result here we move many dependencies on these tools to being produced by a
stage0 compiler, not a stage1+ compiler. None of these tools actually need to be
staged at all, so they'll exhibit consistent behavior across the stages.
