rust/tests/rustdoc-ui/unescaped_backticks.rs
Nicholas Nethercote 5d1d384443 Rename HandlerInner::delay_span_bug as HandlerInner::span_delayed_bug.
Because the corresponding `Level` is `DelayedBug` and `span_delayed_bug`
follows the pattern used everywhere else: `span_err`, `span_warning`,
etc.
2023-12-02 09:01:19 +11:00

356 lines
12 KiB
Rust

#![deny(rustdoc::unescaped_backticks)]
#![allow(rustdoc::broken_intra_doc_links)]
#![allow(rustdoc::invalid_html_tags)]
#![allow(rustdoc::redundant_explicit_links)]
///
pub fn empty() {}
#[doc = ""]
pub fn empty2() {}
/// `
//~^ ERROR unescaped backtick
pub fn single() {}
/// \`
pub fn escaped() {}
/// \\`
//~^ ERROR unescaped backtick
pub fn not_escaped() {}
/// \\\`
pub fn not_not_escaped() {}
/// [`link1]
//~^ ERROR unescaped backtick
pub fn link1() {}
/// [link2`]
//~^ ERROR unescaped backtick
pub fn link2() {}
/// [`link_long](link_long)
//~^ ERROR unescaped backtick
pub fn link_long() {}
/// [`broken-link]
//~^ ERROR unescaped backtick
pub fn broken_link() {}
/// <xx:`>
pub fn url() {}
/// <x:`>
//~^ ERROR unescaped backtick
pub fn not_url() {}
/// <h1>`</h1>
pub fn html_tag() {}
/// &#96;
pub fn html_escape() {}
/// 🦀`🦀
//~^ ERROR unescaped backtick
pub fn unicode() {}
/// `foo(
//~^ ERROR unescaped backtick
///
/// paragraph
pub fn paragraph() {}
/// `foo `bar`
//~^ ERROR unescaped backtick
///
/// paragraph
pub fn paragraph2() {}
/// `foo(
//~^ ERROR unescaped backtick
/// not paragraph
pub fn not_paragraph() {}
/// Addition is commutative, which means that add(a, b)` is the same as `add(b, a)`.
//~^ ERROR unescaped backtick
///
/// You could use this function to add 42 to a number `n` (add(n, 42)`),
/// or even to add a number `n` to 42 (`add(42, b)`)!
//~^ ERROR unescaped backtick
pub fn add1(a: i32, b: i32) -> i32 { a + b }
/// Addition is commutative, which means that `add(a, b) is the same as `add(b, a)`.
//~^ ERROR unescaped backtick
///
/// You could use this function to add 42 to a number `n` (`add(n, 42)),
/// or even to add a number `n` to 42 (`add(42, n)`)!
//~^ ERROR unescaped backtick
pub fn add2(a: i32, b: i32) -> i32 { a + b }
/// Addition is commutative, which means that `add(a, b)` is the same as add(b, a)`.
//~^ ERROR unescaped backtick
///
/// You could use this function to add 42 to a number `n` (`add(n, 42)`),
/// or even to add a number `n` to 42 (add(42, n)`)!
//~^ ERROR unescaped backtick
pub fn add3(a: i32, b: i32) -> i32 { a + b }
/// Addition is commutative, which means that `add(a, b)` is the same as `add(b, a).
//~^ ERROR unescaped backtick
///
/// You could use this function to add 42 to a number `n` (`add(n, 42)),
/// or even to add a number `n` to 42 (`add(42, n)`)!
//~^ ERROR unescaped backtick
pub fn add4(a: i32, b: i32) -> i32 { a + b }
#[doc = "`"]
//~^ ERROR unescaped backtick
pub fn attr() {}
#[doc = concat!("\\", "`")]
pub fn attr_escaped() {}
#[doc = concat!("\\\\", "`")]
//~^ ERROR unescaped backtick
pub fn attr_not_escaped() {}
#[doc = "Addition is commutative, which means that add(a, b)` is the same as `add(b, a)`."]
//~^ ERROR unescaped backtick
pub fn attr_add1(a: i32, b: i32) -> i32 { a + b }
#[doc = "Addition is commutative, which means that `add(a, b) is the same as `add(b, a)`."]
//~^ ERROR unescaped backtick
pub fn attr_add2(a: i32, b: i32) -> i32 { a + b }
#[doc = "Addition is commutative, which means that `add(a, b)` is the same as add(b, a)`."]
//~^ ERROR unescaped backtick
pub fn attr_add3(a: i32, b: i32) -> i32 { a + b }
#[doc = "Addition is commutative, which means that `add(a, b)` is the same as `add(b, a)."]
//~^ ERROR unescaped backtick
pub fn attr_add4(a: i32, b: i32) -> i32 { a + b }
/// ``double backticks``
/// `foo
//~^ ERROR unescaped backtick
pub fn double_backticks() {}
/// # `(heading
//~^ ERROR unescaped backtick
/// ## heading2)`
//~^ ERROR unescaped backtick
///
/// multi `(
//~^ ERROR unescaped backtick
/// line
/// ) heading
/// =
///
/// para)`(graph
//~^ ERROR unescaped backtick
///
/// para)`(graph2
//~^ ERROR unescaped backtick
///
/// 1. foo)`
//~^ ERROR unescaped backtick
/// 2. `(bar
//~^ ERROR unescaped backtick
/// * baz)`
//~^ ERROR unescaped backtick
/// * `(quux
//~^ ERROR unescaped backtick
///
/// `#![this_is_actually_an_image(and(not), an = "attribute")]
//~^ ERROR unescaped backtick
///
/// #![this_is_actually_an_image(and(not), an = "attribute")]`
//~^ ERROR unescaped backtick
///
/// [this_is_actually_an_image(and(not), an = "attribute")]: `.png
///
/// | `table( | )head` |
//~^ ERROR unescaped backtick
//~| ERROR unescaped backtick
/// |---------|--------|
/// | table`( | )`body |
//~^ ERROR unescaped backtick
//~| ERROR unescaped backtick
pub fn complicated_markdown() {}
/// The `custom_mir` attribute tells the compiler to treat the function as being custom MIR. This
/// attribute only works on functions - there is no way to insert custom MIR into the middle of
/// another function. The `dialect` and `phase` parameters indicate which [version of MIR][dialect
/// docs] you are inserting here. Generally you'll want to use `#![custom_mir(dialect = "built")]`
/// if you want your MIR to be modified by the full MIR pipeline, or `#![custom_mir(dialect =
//~^ ERROR unescaped backtick
/// "runtime", phase = "optimized")] if you don't.
pub mod mir {}
pub mod rustc {
/// Constructs a `TyKind::Error` type and registers a `span_delayed_bug` with the given `msg to
//~^ ERROR unescaped backtick
/// ensure it gets used.
pub fn ty_error_with_message() {}
pub struct WhereClause {
/// `true` if we ate a `where` token: this can happen
/// if we parsed no predicates (e.g. `struct Foo where {}
/// This allows us to accurately pretty-print
/// in `nt_to_tokenstream`
//~^ ERROR unescaped backtick
pub has_where_token: bool,
}
/// A symbol is an interned or gensymed string. The use of `newtype_index!` means
/// that `Option<Symbol>` only takes up 4 bytes, because `newtype_index! reserves
//~^ ERROR unescaped backtick
/// the last 256 values for tagging purposes.
pub struct Symbol();
/// It is equivalent to `OpenOptions::new()` but allows you to write more
/// readable code. Instead of `OpenOptions::new().read(true).open("foo.txt")`
/// you can write `File::with_options().read(true).open("foo.txt"). This
/// also avoids the need to import `OpenOptions`.
//~^ ERROR unescaped backtick
pub fn with_options() {}
/// Subtracts `set from `row`. `set` can be either `BitSet` or
/// `HybridBitSet`. Has no effect if `row` does not exist.
//~^ ERROR unescaped backtick
///
/// Returns true if the row was changed.
pub fn subtract_row() {}
pub mod assert_module_sources {
//! The reason that we use `cfg=...` and not `#[cfg_attr]` is so that
//! the HIR doesn't change as a result of the annotations, which might
//! perturb the reuse results.
//!
//! `#![rustc_expected_cgu_reuse(module="spike", cfg="rpass2", kind="post-lto")]
//~^ ERROR unescaped backtick
//! allows for doing a more fine-grained check to see if pre- or post-lto data
//! was re-used.
/// `cfg=...
//~^ ERROR unescaped backtick
pub fn foo() {}
/// `cfg=... and not `#[cfg_attr]`
//~^ ERROR unescaped backtick
pub fn bar() {}
}
/// Conceptually, this is like a `Vec<Vec<RWU>>`. But the number of
/// RWU`s can get very large, so it uses a more compact representation.
//~^ ERROR unescaped backtick
pub struct RWUTable {}
/// Like [Self::canonicalize_query], but preserves distinct universes. For
/// example, canonicalizing `&'?0: Trait<'?1>`, where `'?0` is in `U1` and
/// `'?1` is in `U3` would be canonicalized to have ?0` in `U1` and `'?1`
/// in `U2`.
//~^ ERROR unescaped backtick
///
/// This is used for Chalk integration.
pub fn canonicalize_query_preserving_universes() {}
/// Note that we used to return `Error` here, but that was quite
/// dubious -- the premise was that an error would *eventually* be
/// reported, when the obligation was processed. But in general once
/// you see an `Error` you are supposed to be able to assume that an
/// error *has been* reported, so that you can take whatever heuristic
/// paths you want to take. To make things worse, it was possible for
/// cycles to arise, where you basically had a setup like `<MyType<$0>
/// as Trait>::Foo == $0`. Here, normalizing `<MyType<$0> as
/// Trait>::Foo> to `[type error]` would lead to an obligation of
/// `<MyType<[type error]> as Trait>::Foo`. We are supposed to report
/// an error for this obligation, but we legitimately should not,
/// because it contains `[type error]`. Yuck! (See issue #29857 for
//~^ ERROR unescaped backtick
/// one case where this arose.)
pub fn normalize_to_error() {}
/// you don't want to cache that `B: AutoTrait` or `A: AutoTrait`
/// is `EvaluatedToOk`; this is because they were only considered
/// ok on the premise that if `A: AutoTrait` held, but we indeed
/// encountered a problem (later on) with `A: AutoTrait. So we
/// currently set a flag on the stack node for `B: AutoTrait` (as
/// well as the second instance of `A: AutoTrait`) to suppress
//~^ ERROR unescaped backtick
/// caching.
pub struct TraitObligationStack;
/// Extend `scc` so that it can outlive some placeholder region
/// from a universe it can't name; at present, the only way for
/// this to be true is if `scc` outlives `'static`. This is
/// actually stricter than necessary: ideally, we'd support bounds
/// like `for<'a: 'b`>` that might then allow us to approximate
/// `'a` with `'b` and not `'static`. But it will have to do for
//~^ ERROR unescaped backtick
/// now.
pub fn add_incompatible_universe(){}
}
/// The Subscriber` may be accessed by calling [`WeakDispatch::upgrade`],
/// which returns an `Option<Dispatch>`. If all [`Dispatch`] clones that point
/// at the `Subscriber` have been dropped, [`WeakDispatch::upgrade`] will return
/// `None`. Otherwise, it will return `Some(Dispatch)`.
//~^ ERROR unescaped backtick
///
/// Returns some reference to this `[`Subscriber`] value if it is of type `T`,
/// or `None` if it isn't.
//~^ ERROR unescaped backtick
///
/// Called before the filtered [`Layer]'s [`on_event`], to determine if
/// `on_event` should be called.
//~^ ERROR unescaped backtick
///
/// Therefore, if the `Filter will change the value returned by this
/// method, it is responsible for ensuring that
/// [`rebuild_interest_cache`][rebuild] is called after the value of the max
//~^ ERROR unescaped backtick
/// level changes.
pub mod tracing {}
macro_rules! id {
($($tt:tt)*) => { $($tt)* }
}
id! {
/// The Subscriber` may be accessed by calling [`WeakDispatch::upgrade`],
//~^ ERROR unescaped backtick
//~| ERROR unescaped backtick
//~| ERROR unescaped backtick
//~| ERROR unescaped backtick
/// which returns an `Option<Dispatch>`. If all [`Dispatch`] clones that point
/// at the `Subscriber` have been dropped, [`WeakDispatch::upgrade`] will return
/// `None`. Otherwise, it will return `Some(Dispatch)`.
///
/// Returns some reference to this `[`Subscriber`] value if it is of type `T`,
/// or `None` if it isn't.
///
/// Called before the filtered [`Layer]'s [`on_event`], to determine if
/// `on_event` should be called.
///
/// Therefore, if the `Filter will change the value returned by this
/// method, it is responsible for ensuring that
/// [`rebuild_interest_cache`][rebuild] is called after the value of the max
/// level changes.
pub mod tracing_macro {}
}
/// Regression test for <https://github.com/rust-lang/rust/issues/111117>
pub mod trillium_server_common {
/// One-indexed, because the first CloneCounter is included. If you don't
/// want the original to count, construct a [``CloneCounterObserver`]
/// instead and use [`CloneCounterObserver::counter`] to increment.
//~^ ERROR unescaped backtick
pub struct CloneCounter;
/// This is used by the above.
pub struct CloneCounterObserver;
}