x86_64/usr/lib/rustlib/src/rust/library/alloc/src/macros.rs - manifest_repos/toolchain - Git at Google

 /// Creates a [`Vec`] containing the arguments.
 ///
 /// `vec!` allows `Vec`s to be defined with the same syntax as array expressions.
 /// There are two forms of this macro:
 ///
 /// - Create a [`Vec`] containing a given list of elements:
 ///
 /// ```
 /// let v = vec![1, 2, 3];
 /// assert_eq!(v[0], 1);
 /// assert_eq!(v[1], 2);
 /// assert_eq!(v[2], 3);
 /// ```
 ///
 /// - Create a [`Vec`] from a given element and size:
 ///
 /// ```
 /// let v = vec![1; 3];
 /// assert_eq!(v, [1, 1, 1]);
 /// ```
 ///
 /// Note that unlike array expressions this syntax supports all elements
 /// which implement [`Clone`] and the number of elements doesn't have to be
 /// a constant.
 ///
 /// This will use `clone` to duplicate an expression, so one should be careful
 /// using this with types having a nonstandard `Clone` implementation. For
 /// example, `vec![Rc::new(1); 5]` will create a vector of five references
 /// to the same boxed integer value, not five references pointing to independently
 /// boxed integers.
 ///
 /// Also, note that `vec![expr; 0]` is allowed, and produces an empty vector.
 /// This will still evaluate `expr`, however, and immediately drop the resulting value, so
 /// be mindful of side effects.
 ///
 /// [`Vec`]: crate::vec::Vec
 #[cfg(all(not(no_global_oom_handling), not(test)))]
 #[macro_export]
 #[stable(feature = "rust1", since = "1.0.0")]
 #[rustc_diagnostic_item = "vec_macro"]
 #[allow_internal_unstable(rustc_attrs, liballoc_internals)]
 macro_rules! vec {
     () => (
         $crate::__rust_force_expr!($crate::vec::Vec::new())
     );
     ($elem:expr; $n:expr) => (
         $crate::__rust_force_expr!($crate::vec::from_elem($elem, $n))
     );
     ($($x:expr),+ $(,)?) => (
         $crate::__rust_force_expr!(<[_]>::into_vec(
             #[rustc_box]
             $crate::boxed::Box::new([$($x),+])
         ))
     );
 }

 // HACK(japaric): with cfg(test) the inherent `[T]::into_vec` method, which is
 // required for this macro definition, is not available. Instead use the
 // `slice::into_vec`  function which is only available with cfg(test)
 // NB see the slice::hack module in slice.rs for more information
 #[cfg(all(not(no_global_oom_handling), test))]
 #[allow(unused_macro_rules)]
 macro_rules! vec {
     () => (
         $crate::vec::Vec::new()
     );
     ($elem:expr; $n:expr) => (
         $crate::vec::from_elem($elem, $n)
     );
     ($($x:expr),*) => (
         $crate::slice::into_vec($crate::boxed::Box::new([$($x),*]))
     );
     ($($x:expr,)*) => (vec![$($x),*])
 }

 /// Creates a `String` using interpolation of runtime expressions.
 ///
 /// The first argument `format!` receives is a format string. This must be a string
 /// literal. The power of the formatting string is in the `{}`s contained.
 ///
 /// Additional parameters passed to `format!` replace the `{}`s within the
 /// formatting string in the order given unless named or positional parameters
 /// are used; see [`std::fmt`] for more information.
 ///
 /// A common use for `format!` is concatenation and interpolation of strings.
 /// The same convention is used with [`print!`] and [`write!`] macros,
 /// depending on the intended destination of the string.
 ///
 /// To convert a single value to a string, use the [`to_string`] method. This
 /// will use the [`Display`] formatting trait.
 ///
 /// [`std::fmt`]: ../std/fmt/index.html
 /// [`print!`]: ../std/macro.print.html
 /// [`write!`]: core::write
 /// [`to_string`]: crate::string::ToString
 /// [`Display`]: core::fmt::Display
 ///
 /// # Panics
 ///
 /// `format!` panics if a formatting trait implementation returns an error.
 /// This indicates an incorrect implementation
 /// since `fmt::Write for String` never returns an error itself.
 ///
 /// # Examples
 ///
 /// ```
 /// format!("test");
 /// format!("hello {}", "world!");
 /// format!("x = {}, y = {y}", 10, y = 30);
 /// let (x, y) = (1, 2);
 /// format!("{x} + {y} = 3");
 /// ```
 #[macro_export]
 #[stable(feature = "rust1", since = "1.0.0")]
 #[cfg_attr(not(test), rustc_diagnostic_item = "format_macro")]
 macro_rules! format {
     ($($arg:tt)*) => {{
         let res = $crate::fmt::format($crate::__export::format_args!($($arg)*));
         res
     }}
 }

 /// Force AST node to an expression to improve diagnostics in pattern position.
 #[doc(hidden)]
 #[macro_export]
 #[unstable(feature = "liballoc_internals", issue = "none", reason = "implementation detail")]
 macro_rules! __rust_force_expr {
     ($e:expr) => {
         $e
     };
 }
	/// Creates a [`Vec`] containing the arguments.
	///
	/// `vec!` allows `Vec`s to be defined with the same syntax as array expressions.
	/// There are two forms of this macro:
	///
	/// - Create a [`Vec`] containing a given list of elements:
	///
	/// ```
	/// let v = vec![1, 2, 3];
	/// assert_eq!(v[0], 1);
	/// assert_eq!(v[1], 2);
	/// assert_eq!(v[2], 3);
	/// ```
	///
	/// - Create a [`Vec`] from a given element and size:
	///
	/// ```
	/// let v = vec![1; 3];
	/// assert_eq!(v, [1, 1, 1]);
	/// ```
	///
	/// Note that unlike array expressions this syntax supports all elements
	/// which implement [`Clone`] and the number of elements doesn't have to be
	/// a constant.
	///
	/// This will use `clone` to duplicate an expression, so one should be careful
	/// using this with types having a nonstandard `Clone` implementation. For
	/// example, `vec![Rc::new(1); 5]` will create a vector of five references
	/// to the same boxed integer value, not five references pointing to independently
	/// boxed integers.
	///
	/// Also, note that `vec![expr; 0]` is allowed, and produces an empty vector.
	/// This will still evaluate `expr`, however, and immediately drop the resulting value, so
	/// be mindful of side effects.
	///
	/// [`Vec`]: crate::vec::Vec
	#[cfg(all(not(no_global_oom_handling), not(test)))]
	#[macro_export]
	#[stable(feature = "rust1", since = "1.0.0")]
	#[rustc_diagnostic_item = "vec_macro"]
	#[allow_internal_unstable(rustc_attrs, liballoc_internals)]
	macro_rules! vec {
	() => (
	$crate::__rust_force_expr!($crate::vec::Vec::new())
	);
	($elem:expr; $n:expr) => (
	$crate::__rust_force_expr!($crate::vec::from_elem($elem, $n))
	);
	($($x:expr),+ $(,)?) => (
	$crate::__rust_force_expr!(<[_]>::into_vec(
	#[rustc_box]
	$crate::boxed::Box::new([$($x),+])
	))
	);
	}

	// HACK(japaric): with cfg(test) the inherent `[T]::into_vec` method, which is
	// required for this macro definition, is not available. Instead use the
	// `slice::into_vec` function which is only available with cfg(test)
	// NB see the slice::hack module in slice.rs for more information
	#[cfg(all(not(no_global_oom_handling), test))]
	#[allow(unused_macro_rules)]
	macro_rules! vec {
	() => (
	$crate::vec::Vec::new()
	);
	($elem:expr; $n:expr) => (
	$crate::vec::from_elem($elem, $n)
	);
	($($x:expr),*) => (
	$crate::slice::into_vec($crate::boxed::Box::new([$($x),*]))
	);
	($($x:expr,)) => (vec![$($x),])
	}

	/// Creates a `String` using interpolation of runtime expressions.
	///
	/// The first argument `format!` receives is a format string. This must be a string
	/// literal. The power of the formatting string is in the `{}`s contained.
	///
	/// Additional parameters passed to `format!` replace the `{}`s within the
	/// formatting string in the order given unless named or positional parameters
	/// are used; see [`std::fmt`] for more information.
	///
	/// A common use for `format!` is concatenation and interpolation of strings.
	/// The same convention is used with [`print!`] and [`write!`] macros,
	/// depending on the intended destination of the string.
	///
	/// To convert a single value to a string, use the [`to_string`] method. This
	/// will use the [`Display`] formatting trait.
	///
	/// [`std::fmt`]: ../std/fmt/index.html
	/// [`print!`]: ../std/macro.print.html
	/// [`write!`]: core::write
	/// [`to_string`]: crate::string::ToString
	/// [`Display`]: core::fmt::Display
	///
	/// # Panics
	///
	/// `format!` panics if a formatting trait implementation returns an error.
	/// This indicates an incorrect implementation
	/// since `fmt::Write for String` never returns an error itself.
	///
	/// # Examples
	///
	/// ```
	/// format!("test");
	/// format!("hello {}", "world!");
	/// format!("x = {}, y = {y}", 10, y = 30);
	/// let (x, y) = (1, 2);
	/// format!("{x} + {y} = 3");
	/// ```
	#[macro_export]
	#[stable(feature = "rust1", since = "1.0.0")]
	#[cfg_attr(not(test), rustc_diagnostic_item = "format_macro")]
	macro_rules! format {
	($($arg:tt)*) => {{
	let res = $crate::fmt::format($crate::__export::format_args!($($arg)*));
	res
	}}
	}

	/// Force AST node to an expression to improve diagnostics in pattern position.
	#[doc(hidden)]
	#[macro_export]
	#[unstable(feature = "liballoc_internals", issue = "none", reason = "implementation detail")]
	macro_rules! __rust_force_expr {
	($e:expr) => {
	$e
	};
	}