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rust/library/core/src/internal_macros.rs
John Arundel a19472a93e Fix doc nits 
Many tiny changes to stdlib doc comments to make them consistent (for example
"Returns foo", rather than "Return foo", per RFC1574), adding missing periods, paragraph
breaks, backticks for monospace style, and other minor nits.

https://github.com/rust-lang/rfcs/blob/master/text/1574-more-api-documentation-conventions.md#appendix-a-full-conventions-text
2024-07-26 13:26:33 +01:00

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// implements the unary operator "op &T"
// based on "op T" where T is expected to be `Copy`able
macro_rules! forward_ref_unop {
(impl $imp:ident, $method:ident for $t:ty) => {
forward_ref_unop!(impl $imp, $method for $t,
#[stable(feature = "rust1", since = "1.0.0")]);
};
(impl $imp:ident, $method:ident for $t:ty, #[$attr:meta]) => {
#[$attr]
impl $imp for &$t {
type Output = <$t as $imp>::Output;
#[inline]
fn $method(self) -> <$t as $imp>::Output {
$imp::$method(*self)
}
}
}
}
// implements binary operators "&T op U", "T op &U", "&T op &U"
// based on "T op U" where T and U are expected to be `Copy`able
macro_rules! forward_ref_binop {
(impl $imp:ident, $method:ident for $t:ty, $u:ty) => {
forward_ref_binop!(impl $imp, $method for $t, $u,
#[stable(feature = "rust1", since = "1.0.0")]);
};
(impl $imp:ident, $method:ident for $t:ty, $u:ty, #[$attr:meta]) => {
#[$attr]
impl<'a> $imp<$u> for &'a $t {
type Output = <$t as $imp<$u>>::Output;
#[inline]
#[track_caller]
fn $method(self, other: $u) -> <$t as $imp<$u>>::Output {
$imp::$method(*self, other)
}
}
#[$attr]
impl $imp<&$u> for $t {
type Output = <$t as $imp<$u>>::Output;
#[inline]
#[track_caller]
fn $method(self, other: &$u) -> <$t as $imp<$u>>::Output {
$imp::$method(self, *other)
}
}
#[$attr]
impl $imp<&$u> for &$t {
type Output = <$t as $imp<$u>>::Output;
#[inline]
#[track_caller]
fn $method(self, other: &$u) -> <$t as $imp<$u>>::Output {
$imp::$method(*self, *other)
}
}
}
}
// implements "T op= &U", based on "T op= U"
// where U is expected to be `Copy`able
macro_rules! forward_ref_op_assign {
(impl $imp:ident, $method:ident for $t:ty, $u:ty) => {
forward_ref_op_assign!(impl $imp, $method for $t, $u,
#[stable(feature = "op_assign_builtins_by_ref", since = "1.22.0")]);
};
(impl $imp:ident, $method:ident for $t:ty, $u:ty, #[$attr:meta]) => {
#[$attr]
impl $imp<&$u> for $t {
#[inline]
#[track_caller]
fn $method(&mut self, other: &$u) {
$imp::$method(self, *other);
}
}
}
}
/// Creates a zero-size type similar to a closure type, but named.
macro_rules! impl_fn_for_zst {
($(
$( #[$attr: meta] )*
struct $Name: ident impl$( <$( $lifetime : lifetime ),+> )? Fn =
|$( $arg: ident: $ArgTy: ty ),*| -> $ReturnTy: ty
$body: block;
)+) => {
$(
$( #[$attr] )*
struct $Name;
impl $( <$( $lifetime ),+> )? Fn<($( $ArgTy, )*)> for $Name {
#[inline]
extern "rust-call" fn call(&self, ($( $arg, )*): ($( $ArgTy, )*)) -> $ReturnTy {
$body
}
}
impl $( <$( $lifetime ),+> )? FnMut<($( $ArgTy, )*)> for $Name {
#[inline]
extern "rust-call" fn call_mut(
&mut self,
($( $arg, )*): ($( $ArgTy, )*)
) -> $ReturnTy {
Fn::call(&*self, ($( $arg, )*))
}
}
impl $( <$( $lifetime ),+> )? FnOnce<($( $ArgTy, )*)> for $Name {
type Output = $ReturnTy;
#[inline]
extern "rust-call" fn call_once(self, ($( $arg, )*): ($( $ArgTy, )*)) -> $ReturnTy {
Fn::call(&self, ($( $arg, )*))
}
}
)+
}
}
/// A macro for defining `#[cfg]` if-else statements.
///
/// `cfg_if` is similar to the `if/elif` C preprocessor macro by allowing definition of a cascade
/// of `#[cfg]` cases, emitting the implementation which matches first.
///
/// This allows you to conveniently provide a long list `#[cfg]`'d blocks of code without having to
/// rewrite each clause multiple times.
///
/// # Example
///
/// ```ignore(cannot-test-this-because-non-exported-macro)
/// cfg_if! {
/// if #[cfg(unix)] {
/// fn foo() { /* unix specific functionality */ }
/// } else if #[cfg(target_pointer_width = "32")] {
/// fn foo() { /* non-unix, 32-bit functionality */ }
/// } else {
/// fn foo() { /* fallback implementation */ }
/// }
/// }
///
/// # fn main() {}
/// ```
// This is a copy of `cfg_if!` from the `cfg_if` crate.
// The recursive invocations should use $crate if this is ever exported.
macro_rules! cfg_if {
// match if/else chains with a final `else`
(
$(
if #[cfg( $i_meta:meta )] { $( $i_tokens:tt )* }
) else+
else { $( $e_tokens:tt )* }
) => {
cfg_if! {
@__items () ;
$(
(( $i_meta ) ( $( $i_tokens )* )) ,
)+
(() ( $( $e_tokens )* )) ,
}
};
// Internal and recursive macro to emit all the items
//
// Collects all the previous cfgs in a list at the beginning, so they can be
// negated. After the semicolon is all the remaining items.
(@__items ( $( $_:meta , )* ) ; ) => {};
(
@__items ( $( $no:meta , )* ) ;
(( $( $yes:meta )? ) ( $( $tokens:tt )* )) ,
$( $rest:tt , )*
) => {
// Emit all items within one block, applying an appropriate #[cfg]. The
// #[cfg] will require all `$yes` matchers specified and must also negate
// all previous matchers.
#[cfg(all(
$( $yes , )?
not(any( $( $no ),* ))
))]
cfg_if! { @__identity $( $tokens )* }
// Recurse to emit all other items in `$rest`, and when we do so add all
// our `$yes` matchers to the list of `$no` matchers as future emissions
// will have to negate everything we just matched as well.
cfg_if! {
@__items ( $( $no , )* $( $yes , )? ) ;
$( $rest , )*
}
};
// Internal macro to make __apply work out right for different match types,
// because of how macros match/expand stuff.
(@__identity $( $tokens:tt )* ) => {
$( $tokens )*
};
}
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