Use GNU version of fgrep/egrep tool if available
It is mostly for BSD system. Some tests (run-make/issue-35164 and
run-make/cat-and-grep-sanity-check) are failing with BSD
fgrep, whereas they pass with gnu version (gfgrep).
Remove core::fmt::num::Decimal
Before ebf9e1aaf6, it was used for Display::fmt, but ebf9e1aaf6 replaced
that with a faster implementation, and nothing else uses it.
add an "unstable features" chapter to the rustdoc book
There are several rustdoc features that currently are undocumented, but also don't fit with the rest of the Rustdoc Book since they're also unstable. Some of these have corresponding feature gates and chapters in the Unstable Book, but many don't, and i wanted a place to talk about them officially.
Goal: talk about everything rustdoc can do that needs nightly
- [x] Feature gates (extensions to the doc attribute that can be caught by the compiler)
- [x] doc(cfg)
- [x] doc(masked)
- [x] doc(spotlight)
- [x] doc(include)
- [x] Command-line flags (features that require a CLI flag to use, where the flag itself is a `-Z` command or otherwise requires `-Z unstable-options` before rustdoc will accept it)
- [x] markdown-before-content/markdown-after-content
- [x] playground-url
- [x] display-warnings
- [x] crate-version
- [x] linker
- [x] sort-modules-by-appearance
- [x] themes/theme-checker
- [x] resource-suffix
- [x] `-Z force-unstable-if-unmarked`
- [x] Nightly-gated functionality (features that are gated by requiring a nightly build without needing a CLI flag or a feature gate to unlock)
- [x] intra-links
- [x] error numbers for `compile_fail` doctests
Improve lint for type alias bounds
First of all, I learned just today that I was wrong assuming that the bounds in type aliases are entirely ignored: It turns out they are used to resolve associated types in type aliases. So:
```rust
type T1<U: Bound> = U::Assoc; // compiles
type T2<U> = U::Assoc; // fails
type T3<U> = <U as Bound>::Assoc; // "correct" way to write this, maybe?
```
I am sorry for creating this mess.
This PR changes the wording of the lint accordingly. Moreover, since just removing the bound is no longer always a possible fix, I tried to detect cases like `T1` above and show a helpful message to the user:
```
warning: bounds on generic parameters are not enforced in type aliases
--> $DIR/type-alias-bounds.rs:57:12
|
LL | type T1<U: Bound> = U::Assoc; //~ WARN not enforced in type aliases
| ^^^^^
|
= help: the bound will not be checked when the type alias is used, and should be removed
help: use absolute paths (i.e., <T as Trait>::Assoc) to refer to associated types in type aliases
--> $DIR/type-alias-bounds.rs:57:21
|
LL | type T1<U: Bound> = U::Assoc; //~ WARN not enforced in type aliases
| ^^^^^^^^
```
I am not sure if I got this entirely right. Ideally, we could provide a suggestion involving the correct trait and type name -- however, while I have access to the HIR in the lint, I do not know how to get access to the resolved name information, like which trait `Assoc` belongs to above. The lint does not even run if that resolution fails, so I assume that information is available *somewhere*...
This is a follow-up for (parts of) https://github.com/rust-lang/rust/pull/48326. Also see https://github.com/rust-lang/rust/issues/21903.
This changes the name of a lint, but that lint was just merged to master yesterday and has never even been on beta.
rustc: Add a `#[wasm_custom_section]` attribute
This commit is an implementation of adding custom sections to wasm artifacts in
rustc. The intention here is to expose the ability of the wasm binary format to
contain custom sections with arbitrary user-defined data. Currently neither our
version of LLVM nor LLD supports this so the implementation is currently custom
to rustc itself.
The implementation here is to attach a `#[wasm_custom_section = "foo"]`
attribute to any `const` which has a type like `[u8; N]`. Other types of
constants aren't supported yet but may be added one day! This should hopefully
be enough to get off the ground with *some* custom section support.
The current semantics are that any constant tagged with `#[wasm_custom_section]`
section will be *appended* to the corresponding section in the final output wasm
artifact (and this affects dependencies linked in as well, not just the final
crate). This means that whatever is interpreting the contents must be able to
interpret binary-concatenated sections (or each constant needs to be in its own
custom section).
To test this change the existing `run-make` test suite was moved to a
`run-make-fulldeps` folder and a new `run-make` test suite was added which
applies to all targets by default. This test suite currently only has one test
which only runs for the wasm target (using a node.js script to use `WebAssembly`
in JS to parse the wasm output).
Adds intrinsics::exact_div to take advantage of the unsafe, which reduces the implementation from
```asm
sub rcx, rdx
mov rax, rcx
sar rax, 63
shr rax, 62
lea rax, [rax + rcx]
sar rax, 2
ret
```
down to
```asm
sub rcx, rdx
sar rcx, 2
mov rax, rcx
ret
```
(for `*const i32`)
This commit moves away from caching on Travis to our own caching on S3 for
caching docker layers between builds. Unfortunately the Travis caches have over
time had a few critical pain points:
* Caches are only updated for successful builds, meaning that if a build times
out or fails in a different location the sucessfully-created docker images
isn't always cached. While this makes sense as a general rule of caches it
hurts our use cases.
* Caches are per-branch and builder which means that we don't have a separate
cache on each release channel. All our merges go through the `auto` branch
which means that they're all sharing the same cache, even those for merging to
master/beta. This means that PRs which switch between master/beta will keep
rebuilting and having cache misses.
* Caches have historically been invaliated somewhat regularly a little more
aggressively than we'd want (I think).
* We don't always need to update the contents of the cache if the Docker image
didn't change at all, and saving off the docker layers can sometimes be quite
expensive.
For all these reasons this commit drops the usage of Travis's built-in caching
support. Instead our own caching is used by storing blobs to S3. Normally this
would be a very risky endeavour but we're basically priming a cache for a cache
(docker) so if we get this wrong the failure mode is longer builds, not stale
caches. We'll notice that pretty quickly and hopefully fix it!
The logic here is inserted directly into the `src/ci/docker/run.sh` script to
download an image based on a shasum of the `Dockerfile` and other assorted files.
This blob, if found, is loaded into docker and we record what layers were
inserted. After docker finishes the build (hopefully quickly with lots of cache
hits) we then see the sha of the final image. If it's one of the layers we
loaded then there's no need to update the cache. Otherwise we upload our layers
to the global cache, possibly overwriting what we previously just downloaded.
This is hopefully a step towards mitigating #49278 although it doesn't
completely fix it as it means we'll still probably have to retry builds that
bust the cache.
This assertion was preventing `./x.py install rustfmt` if attempted
without an "extended" build configuration, but it actually builds and
installs just fine.
