Ignore variadic FFI test on AArch64
I've cross compiled Rust to `aarch64-linux-gnu`, and tried to run the compile-fail tests, but `variadic-ffi.rs` fails with the following error:
```
The ABI `"stdcall"` is not supported for the current target [E0570]
```
The test seems to be ignored on (32-bit) ARM, so I turned it off for AArch64 too.
Vec<T> is pronounced 'vec'
I've never heard it pronounced "vector". Is this an outdated recommendation?
(or have I been doing it wrong all this time)
r? @steveklabnik
Currently rustdoc will fail if passed `-o foo/doc` if the `foo`
directory doesn't exist.
Also remove unneeded `mkdir` as `create_dir_all` can now handle
concurrent invocations.
Fix GDB pretty-printer for tuples and pointers
Names of children should not be the same, because GDB uses them to distinguish the children.
|Before|After|
|---|---|
|||
`main.rs`
```rust
enum Test {
Zero,
One(i32),
Two(i32, String),
Three(i32, String, Vec<String>),
}
fn main() {
let tuple = (1, 2, "Asdfgh");
let zero = Test::Zero;
let one = Test::One(10);
let two = Test::Two(42, "Qwerty".to_owned());
let three = Test::Three(9000,
"Zxcvbn".to_owned(),
vec!["lorem".to_owned(), "ipsum".to_owned(), "dolor".to_owned()]);
println!(""); // breakpoint here
}
```
`launch.json`
```json
{
"version": "0.2.0",
"configurations": [
{
"type": "gdb",
"request": "launch",
"gdbpath": "rust-gdb",
"name": "Launch Program",
"valuesFormatting": "prettyPrinters", //this requires plugin Native Debug >= 0.20.0
"target": "./target/debug/test_pretty_printers",
"cwd": "${workspaceRoot}"
}
]
}
```
Fix translation of external spans
Previously, I noticed that spans from external crates don't generate any output. This limitation is problematic if analysis is performed on one or more external crates, as is the case with [rust-semverver](https://github.com/ibabushkin/rust-semverver). This change should address this behaviour, with the potential drawback that a minor performance hit is to be expected, as spans from potentially large crates have to be translated now.
Some preparatory refactorings for hash-based DepNodes
This PR collects some changes that turn out to be necessary for implementing `DepNodes` based on stable hashes (see #42294). The commits are self-contained and mostly straightforward.
The most interesting change here is the introduction of `DefIndices` for things that are not part of the AST: Some pieces of crate metadata now have a `DefIndex` too.
cc @eddyb
r? @nikomatsakis
LLVM currently doesn't remove the "bypass if argument is zero" assembly inside branches where the value is known to be non-zero, pessimizing code that uses uN::leading_zeros
Document direct implementations on type aliases.
This improves #32077, but is not a complete fix.
For a type alias `type NewType = AliasedType`, it will include any `impl NewType` and `impl
Trait for NewType` blocks in the documentation for `NewType`.
A complete fix would include the implementations from the aliased type in the type alias' documentation, so that users have a complete picture of methods that are available on the alias. However, to do this properly would require a fix for #14072, as the alias may affect the type parameters of the type alias, making the documentation difficult to understand. (That is, for `type Result = std::result::Result<(), ()>` we would ideally show documentation for `impl Result<(), ()>`, rather than generic documentation for `impl<T, E> Result<T, E>`).
I think this improvement is worthwhile, as it exposes implementations which are not currently documented by rustdoc. The documentation for the implementations on the aliased type are still accessible by clicking through to the docs for that type. (Although perhaps it's now less obvious to the user that they should click-through to get there).
This improves #32077, but is not a complete fix. For a type alias `type
NewType = AliasedType`, it will include any `impl NewType` and `impl
Trait for NewType` blocks in the documentation for `NewType`.
A complete fix would include the implementations from the aliased type
in the type alias' documentation, so that users have a complete
picture of methods that are available on the alias. However, to do this
properly would require a fix for #14072, as the alias may affect the
type parameters of the type alias, making the documentation difficult to
understand. (That is, for `type Result = std::result::Result<(), ()>` we
would ideally show documentation for `impl Result<(), ()>`, rather than
generic documentation for `impl<T, E> Result<T, E>`).
I think this improvement is worthwhile, as it exposes implementations
which are not currently documented by rustdoc. The documentation for the
implementations on the aliased type are still accessible by clicking
through to the docs for that type. (Although perhaps it's now less
obvious to the user that they should click-through to get there).
bootstrap: improve 'build --help' by explaining what exactly the last example does
I recently found myself confused about what exactly gets built how often when I run which command; I think this would have helped me.
One thing I did not touch, but I feel could also be improved, is the wording just above: "For a quick build with a usable compile, you can pass". I am not a native speaker, but this sounds odd to me. Do you mean "For a quick build of a usable compiler" (but then it should say where the usable compiler is produced)? Or do you mean "For a quick build testing if the compiler is usable"? I can reword this, but I'd like to make sure I understand the intent of the message.
What about
```
For a quick build of a usable compiler, you can pass:
./x.py build --stage 1 src/libtest
This will first build everything once (like --stage 0 without further
arguments would), and then use the compiler built in stage 0 to build
src/libtest and its dependencies.
Once this is done, build/$ARCH/stage1 contains a usable compiler.
```
However, I am not sure this is actually true. In particular, why even bother building the libstd in stage 1? AFAIK that ends up in `build/*/stage1-std`, not in `build/*/stage1` (which is filled from `build/*/stage0-*`).
std: Avoid panics in rust_eh_personality
This commit removes a few calls to panic and/or assert in `rust_eh_personality`.
This function definitely can't itself panic (that'd probably segfault or do
something else weird) and I was also noticing that a `pub extern fn foo() {}`
cdylib was abnormally large. Turns out all that size was the panicking machinery
brought in by the personality function!
The change here is to return a `Result` internally so we can bubble up the fatal
error, eventually translating to the appropriate error code for the libunwind
ABI.
This commit removes a few calls to panic and/or assert in `rust_eh_personality`.
This function definitely can't itself panic (that'd probably segfault or do
something else weird) and I was also noticing that a `pub extern fn foo() {}`
cdylib was abnormally large. Turns out all that size was the panicking machinery
brought in by the personality function!
The change here is to return a `Result` internally so we can bubble up the fatal
error, eventually translating to the appropriate error code for the libunwind
ABI.
Change `llvm.neon.*` to `llvm.arm.neon.*` in the mapping for platform intrinsics
This avoids linker errors when using platform intrinsics on 32-bit ARM with
NEON.
Fixesrust-lang-nursery/simd#10.
I don't have an explanation why the old code might have worked when the `simd` crate was written, since the new LLVM intrinsic naming seems to have existed as early as 2012. Maybe LLVM accepted two naming schemes for a few years and dropped the `llvm.neon.*` version recently? I don't know.
Also, I don't know how to write a unit test for this.
Better closure error message
Use tracked data introduced in #42196 to provide a better closure
error message by showing why a closure implements `FnOnce`.
```
error[E0525]: expected a closure that implements the `Fn` trait, but
this closure only implements `FnOnce`
--> $DIR/issue_26046.rs:4:19
|
4 | let closure = move || {
| ___________________^
5 | | vec
6 | | };
| |_____^
|
note: closure is `FnOnce` because it moves the variable `vec` out of
its environment
--> $DIR/issue_26046.rs:5:9
|
5 | vec
| ^^^
error: aborting due to previous error(s)
```
Fixes#26046
r? @nikomatsakis
cc @doomrobo
Fix setting PATH during linkage on windows-gnu
This makes the behavior almost exactly the same as before the VS2017 patch, except that on MSVC builds the host bin path is no longer added to PATH. I am not sure that's actually necessary on any platform.
r? @alexcrichton
Fixes https://github.com/rust-lang/rust/issues/42422
Changing error message from `contains interior mutability` to `may contain interior mutability`
Fixes#40313 . I have changed the message from `contains interior mutability` to `may contain interior mutability` for the following example
```
use std::cell::Cell;
use std::panic::catch_unwind;
fn main() {
let mut x = Cell::new(22);
catch_unwind(|| { x.set(23); });
}
```
which has been added as a ui test.
Also, the message [here](https://github.com/gaurikholkar/rust/blob/master/src/librustc_mir/transform/qualify_consts.rs#L666) and it's respective `compile-fail` test have been modified.
cc @nikomatsakis @Mark-Simulacrum @eddyb
