These links work by hyperlinking back to the actual documentation page with a
query parameter which will be recognized and then auto-click the appropriate
[src] link.
Within the documentation for a crate, all hyperlinks to reexported items don't
go across crates, but rather to the items in the crate itself. This will allow
references to Option in the standard library to link to the standard library's
Option, instead of libcore's.
This does mean that other crate's links for Option will still link to libcore's
Option.
This commit teaches rustdoc to inline the documentation for the destination of a
`pub use` statement across crate boundaries. This is intended for the standard
library's facade to show the fact that the facade is just an implementation
detail rather than the api of the standard library itself.
This starts out by inlining traits and functions, but more items will come soon.
The current drawback of this system is that hyperlinks across crates sill go to
the original item's definition rather than the reexported location.
Converts `StrBuf` to `String` throughout rustc and the standard library.
Tests all pass locally, but usual caveats about platforms that aren't OSX apply since I don't have a test environment handy.
@alexcritchon mentioned that @pcwalton may have a patch incoming that should block this?
closes#14312
Paper over privacy issues with Deref by changing field names.
Types that implement Deref can cause weird error messages due to their
private fields conflicting with a field of the type they deref to, e.g.,
previously
struct Foo { x: int }
let a: Arc<Foo> = ...;
println!("{}", a.x);
would complain the the `x` field of `Arc` was private (since Arc has a
private field called `x`) rather than just ignoring it.
This patch doesn't fix that issue, but does mean one would have to write
`a._ptr` to hit the same error message, which seems far less
common. (This patch `_`-prefixes all private fields of
`Deref`-implementing types.)
cc #12808
Types that implement Deref can cause weird error messages due to their
private fields conflicting with a field of the type they deref to, e.g.,
previously
struct Foo { x: int }
let a: Arc<Foo> = ...;
println!("{}", a.x);
would complain the the `x` field of `Arc` was private (since Arc has a
private field called `x`) rather than just ignoring it.
This patch doesn't fix that issue, but does mean one would have to write
`a._ptr` to hit the same error message, which seems far less
common. (This patch `_`-prefixes all private fields of
`Deref`-implementing types.)
cc #12808
The compiler now tracks which attributes were actually looked at during the compilation process and warns for those that were unused.
Some things of note:
* The tracking is done via thread locals, as it made the implementation more straightforward. Note that this shouldn't hamper any future parallelization as each task can have its own thread local state which can be merged for the lint pass. If there are serious objections to this, I can restructure things to explicitly pass the state around.
* There are a number of attributes that have to be special-cased and globally whitelisted. This happens for four reasons:
* The `doc` and `automatically_derived` attributes are used by rustdoc, but not by the compiler.
* The crate-level attributes `license`, `desc` and `comment` aren't currently used by anything.
* Stability attributes as well as `must_use` are checked only when the tagged item is used, so we can't guarantee that the compiler's looked at them.
* 12 attributes are used only in trans, which happens after the lint pass.
#14300 is adding infrastructure to track lint state through trans, which this lint should also be able to use to handle the last case. For the other attributes, the right solution would probably involve a specific pass to mark uses that occur in the correct context. For example, a `doc` attribute attached to a match arm should generate a warning, but will not currently.
RFC: 0002-attribute-usage
There's a fair number of attributes that have to be whitelisted since
they're either looked for by rustdoc, in trans, or as needed. These can
be cleaned up in the future.
Some functions implemented for the Ascii struct have the same functionality as other functions implemented for the normal chars. For consistency, I think they should have the same name, so I renamed the functions in Ascii to match the names in the Char trait.
* Renamed `to_lower` to `to_lowercase`
* Renamed `to_upper` to `to_uppercase`
* Renamed `is_alpha` to `is_alphabetic`
* Renamed `is_alnum` to `is_alphanumeric`
* Renamed `is_lower` to `is_lowercase`
* Renamed `is_upper` to `is_uppercase`
[breaking-change]
On some systems (iOS for example) mutex is represented by opaque data structure which doesn't play well with simple data copy. Therefore mutex should be initialized from magic static value and filled by OS only when it landed RC.
Initially written for iOS but since landing iOS support might require quite a lot of time I think it is better to split parts which aren't directly related to iOS and merge them in
Some functions implemented for the Ascii struct have the same functionality as other functions implemented for the normal chars. For consistency, I think they should have the same name, so I renamed the functions in Ascii to match the names in the Char trait.
* Renamed `to_lower` to `to_lowercase`
* Renamed `to_upper` to `to_uppercase`
* Renamed `is_alpha` to `is_alphabetic`
* Renamed `is_alnum` to `is_alphanumeric`
* Renamed `is_lower` to `is_lowercase`
* Renamed `is_upper` to `is_uppercase`
[breaking-change]
* All of the *_val functions have gone from #[unstable] to #[stable]
* The overwrite and zeroed functions have gone from #[unstable] to #[stable]
* The uninit function is now deprecated, replaced by its stable counterpart,
uninitialized
[breaking-change]
On some systems (iOS for example) mutex is represented by
opaque data structure which doesn't play well with simple
data copy. Therefore mutex should be initialized from
magic static value and filled by OS only when it landed RC.
* All of the *_val functions have gone from #[unstable] to #[stable]
* The overwrite and zeroed functions have gone from #[unstable] to #[stable]
* The uninit function is now deprecated, replaced by its stable counterpart,
uninitialized
[breaking-change]
We can now mark arguments and returns as `nonnull` in LLVM. It's still somewhat limited by the fact that LLVM loses this information after inlining but it might help in certain cases.