Add note suggesting that predicate may be satisfied, but is not `const`
Not sure if we should be printing this in addition to, or perhaps _instead_ of the help message:
```
help: the trait `~const Add` is not implemented for `NonConstAdd`
```
Also added `ParamEnv::is_const` and `PolyTraitPredicate::is_const_if_const` and, in a separate commit, used those in other places instead of `== hir::Constness::Const`, etc.
r? ````@fee1-dead````
Add `intrinsics::const_deallocate`
Tracking issue: #79597
Related: #91884
This allows deallocation of a memory allocated by `intrinsics::const_allocate`. At the moment, this can be only used to reduce memory usage, but in the future this may be useful to detect memory leaks (If an allocated memory remains after evaluation, raise an error...?).
Rollup of 10 pull requests
Successful merges:
- #92611 (Add links to the reference and rust by example for asm! docs and lints)
- #93158 (wasi: implement `sock_accept` and enable networking)
- #93239 (Add os::unix::net::SocketAddr::from_path)
- #93261 (Some unwinding related cg_ssa cleanups)
- #93295 (Avoid double panics when using `TempDir` in tests)
- #93353 (Unimpl {Add,Sub,Mul,Div,Rem,BitXor,BitOr,BitAnd}<$t> for Saturating<$t>)
- #93356 (Edit docs introduction for `std::cmp::PartialOrd`)
- #93375 (fix typo `documenation`)
- #93399 (rustbuild: Fix compiletest warning when building outside of root.)
- #93404 (Fix a typo from #92899)
Failed merges:
r? `@ghost`
`@rustbot` modify labels: rollup
rustbuild: Fix compiletest warning when building outside of root.
This fixes a warning that would happen when passing arguments to compiletest (like `x.py test src/test/ui`) when running `x.py` outside of the root source directory. For example, the CI builders do this, which causes a confusing warning message. This also fixes it so that passing a full path works (like `x.py test src/test/ui/hello.rs`) in the same scenario (previously it would just ignore the `hello.rs` part).
Add links to the reference and rust by example for asm! docs and lints
These were previously removed in #91728 due to broken links.
cc ``@ehuss`` since this updates the rust-by-example submodule
Fix debuginfo for pointers/references to unsized types
This PR makes the compiler emit fat pointer debuginfo in all cases. Before, we sometimes got thin-pointer debuginfo, making it impossible to fully interpret the pointed to memory in debuggers. The code is actually cleaner now, especially around generation of trait object pointer debuginfo.
Fixes https://github.com/rust-lang/rust/issues/92718
~~Blocked on https://github.com/rust-lang/rust/pull/92729.~~
Suggest tuple-parentheses for enum variants
This follows on from #86493 / #86481, making the parentheses suggestion. To summarise, given the following code:
```rust
fn f() -> Option<(i32, i8)> {
Some(1, 2)
}
```
The current output is:
```
error[E0061]: this enum variant takes 1 argument but 2 arguments were supplied
--> b.rs:2:5
|
2 | Some(1, 2)
| ^^^^ - - supplied 2 arguments
| |
| expected 1 argument
error: aborting due to previous error
For more information about this error, try `rustc --explain E0061`.
```
With this change, `rustc` will now suggest parentheses when:
- The callee is expecting a single tuple argument
- The number of arguments passed matches the element count in the above tuple
- The arguments' types match the tuple's fields
```
error[E0061]: this enum variant takes 1 argument but 2 arguments were supplied
--> b.rs:2:5
|
2 | Some(1, 2)
| ^^^^ - - supplied 2 arguments
|
help: use parentheses to construct a tuple
|
2 | Some((1, 2))
| + +
```
Clarify the `usage-of-qualified-ty` error message.
I found this message confusing when I encountered it. This commit makes
it clearer that you have to import the unqualified type yourself.
r? `@lcnr`
Ignore unwinding edges when checking for unconditional recursion
The unconditional recursion lint determines if all execution paths
eventually lead to a self-recursive call.
The implementation always follows unwinding edges which limits its
practical utility. For example, it would not lint function `f` because a
call to `g` might unwind. It also wouldn't lint function `h` because an
overflow check preceding the self-recursive call might unwind:
```rust
pub fn f() {
g();
f();
}
pub fn g() { /* ... */ }
pub fn h(a: usize) {
h(a + 1);
}
```
To avoid the issue, assume that terminators that might continue
execution along non-unwinding edges do so.
Fixes#78474.
Add x86_64-pc-windows-msvc linker-plugin-lto instructions
I had some trouble getting cross language LTO working for this target, in part because the very few links of documentation I could find were linux-centric and because of a few very specific errors I ran into. I'm not sure if this is the correct place to document this, but this is one of the first links I found when looking for documentation so it might be the best place for it.
add OpenBSD platform-support page
It mentions x86_64, i686, aarch64 and sparc64 which are actively maintained and used on OpenBSD (binaries provided by standard package distribution on OpenBSD).
I volontary kept `powerpc-unknown-openbsd` unmentioned as it was added by `@Yn0ga` in #82733, and I am unaware if it is functional or not (I doubt as I added libc support only few days ago, and std `c_char` signess was wrong). `@Yn0ga` maybe you comment on your `powerpc-unknown-openbsd` usage ?
The unconditional recursion lint determines if all execution paths
eventually lead to a self-recursive call.
The implementation always follows unwinding edges which limits its
practical utility. For example, it would not lint function `f` because a
call to `g` might unwind. It also wouldn't lint function `h` because an
overflow check preceding the self-recursive call might unwind:
```rust
pub fn f() {
g();
f();
}
pub fn g() { /* ... */ }
pub fn h(a: usize) {
h(a + 1);
}
```
To avoid the issue, assume that terminators that might continue
execution along non-unwinding edges do so.
Fix the unsoundness in the `early_otherwise_branch` mir opt pass
Closes#78496 .
This change is a significant rewrite of much of the pass. Exactly what it does is documented in the source file (with ascii art!), and all the changes that are made to the MIR that are not trivially sound are carefully documented. That being said, this is my first time touching MIR, so there are probably some invariants I did not know about that I broke.
This version of the optimization is also somewhat more flexible than the original; for example, we do not care how or where the value on which the parent is switching is computed. There is no requirement that any types be the same. This could be made even more flexible in the future by allowing a wider range of statements in the bodies of `BBC, BBD` (as long as they are all the same of course). This should be a good first step though.
Probably needs a perf run.
r? `@oli-obk` who reviewed things the last time this was touched
rustdoc: Pre-calculate traits that are in scope for doc links
This eliminates one more late use of resolver (part of #83761).
At early doc link resolution time we go through parent modules of items from the current crate, reexports of items from other crates, trait items, and impl items collected by `collect-intra-doc-links` pass, determine traits that are in scope in each such module, and put those traits into a map used by later rustdoc passes.
r? `@jyn514`
