// Copyright 2014 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. //! Standard library macros //! //! This modules contains a set of macros which are exported from the standard //! library. Each macro is available for use when linking against the standard //! library. #![unstable(feature = "std_misc")] /// The entry point for panic of Rust tasks. /// /// This macro is used to inject panic into a Rust task, causing the task to /// unwind and panic entirely. Each task's panic can be reaped as the /// `Box` type, and the single-argument form of the `panic!` macro will be /// the value which is transmitted. /// /// The multi-argument form of this macro panics with a string and has the /// `format!` syntax for building a string. /// /// # Example /// /// ```should_fail /// # #![allow(unreachable_code)] /// panic!(); /// panic!("this is a terrible mistake!"); /// panic!(4); // panic with the value of 4 to be collected elsewhere /// panic!("this is a {} {message}", "fancy", message = "message"); /// ``` #[macro_export] #[stable(feature = "rust1", since = "1.0.0")] macro_rules! panic { () => ({ panic!("explicit panic") }); ($msg:expr) => ({ $crate::rt::begin_unwind($msg, { // static requires less code at runtime, more constant data static _FILE_LINE: (&'static str, usize) = (file!(), line!() as usize); &_FILE_LINE }) }); ($fmt:expr, $($arg:tt)+) => ({ $crate::rt::begin_unwind_fmt(format_args!($fmt, $($arg)+), { // The leading _'s are to avoid dead code warnings if this is // used inside a dead function. Just `#[allow(dead_code)]` is // insufficient, since the user may have // `#[forbid(dead_code)]` and which cannot be overridden. static _FILE_LINE: (&'static str, usize) = (file!(), line!() as usize); &_FILE_LINE }) }); } /// Equivalent to the `println!` macro except that a newline is not printed at /// the end of the message. #[macro_export] #[stable(feature = "rust1", since = "1.0.0")] macro_rules! print { ($($arg:tt)*) => ($crate::old_io::stdio::print_args(format_args!($($arg)*))) } /// Macro for printing to a task's stdout handle. /// /// Each task can override its stdout handle via `std::old_io::stdio::set_stdout`. /// The syntax of this macro is the same as that used for `format!`. For more /// information, see `std::fmt` and `std::old_io::stdio`. /// /// # Example /// /// ``` /// println!("hello there!"); /// println!("format {} arguments", "some"); /// ``` #[macro_export] #[stable(feature = "rust1", since = "1.0.0")] macro_rules! println { ($($arg:tt)*) => ($crate::old_io::stdio::println_args(format_args!($($arg)*))) } /// Helper macro for unwrapping `Result` values while returning early with an /// error if the value of the expression is `Err`. For more information, see /// `std::io`. #[macro_export] #[stable(feature = "rust1", since = "1.0.0")] macro_rules! try { ($expr:expr) => (match $expr { $crate::result::Result::Ok(val) => val, $crate::result::Result::Err(err) => { return $crate::result::Result::Err($crate::error::FromError::from_error(err)) } }) } /// A macro to select an event from a number of receivers. /// /// This macro is used to wait for the first event to occur on a number of /// receivers. It places no restrictions on the types of receivers given to /// this macro, this can be viewed as a heterogeneous select. /// /// # Examples /// /// ``` /// use std::thread; /// use std::sync::mpsc; /// /// // two placeholder functions for now /// fn long_running_task() {} /// fn calculate_the_answer() -> u32 { 42 } /// /// let (tx1, rx1) = mpsc::channel(); /// let (tx2, rx2) = mpsc::channel(); /// /// thread::spawn(move|| { long_running_task(); tx1.send(()).unwrap(); }); /// thread::spawn(move|| { tx2.send(calculate_the_answer()).unwrap(); }); /// /// select! ( /// _ = rx1.recv() => println!("the long running task finished first"), /// answer = rx2.recv() => { /// println!("the answer was: {}", answer.unwrap()); /// } /// ) /// ``` /// /// For more information about select, see the `std::sync::mpsc::Select` structure. #[macro_export] #[unstable(feature = "std_misc")] macro_rules! select { ( $($name:pat = $rx:ident.$meth:ident() => $code:expr),+ ) => ({ use $crate::sync::mpsc::Select; let sel = Select::new(); $( let mut $rx = sel.handle(&$rx); )+ unsafe { $( $rx.add(); )+ } let ret = sel.wait(); $( if ret == $rx.id() { let $name = $rx.$meth(); $code } else )+ { unreachable!() } }) } // When testing the standard library, we link to the liblog crate to get the // logging macros. In doing so, the liblog crate was linked against the real // version of libstd, and uses a different std::fmt module than the test crate // uses. To get around this difference, we redefine the log!() macro here to be // just a dumb version of what it should be. #[cfg(test)] macro_rules! log { ($lvl:expr, $($args:tt)*) => ( if log_enabled!($lvl) { println!($($args)*) } ) } /// Built-in macros to the compiler itself. /// /// These macros do not have any corresponding definition with a `macro_rules!` /// macro, but are documented here. Their implementations can be found hardcoded /// into libsyntax itself. #[cfg(dox)] pub mod builtin { /// The core macro for formatted string creation & output. /// /// This macro produces a value of type `fmt::Arguments`. This value can be /// passed to the functions in `std::fmt` for performing useful functions. /// All other formatting macros (`format!`, `write!`, `println!`, etc) are /// proxied through this one. /// /// For more information, see the documentation in `std::fmt`. /// /// # Example /// /// ```rust /// use std::fmt; /// /// let s = fmt::format(format_args!("hello {}", "world")); /// assert_eq!(s, format!("hello {}", "world")); /// /// ``` #[macro_export] macro_rules! format_args { ($fmt:expr, $($args:tt)*) => ({ /* compiler built-in */ }) } /// Inspect an environment variable at compile time. /// /// This macro will expand to the value of the named environment variable at /// compile time, yielding an expression of type `&'static str`. /// /// If the environment variable is not defined, then a compilation error /// will be emitted. To not emit a compile error, use the `option_env!` /// macro instead. /// /// # Example /// /// ```rust /// let path: &'static str = env!("PATH"); /// println!("the $PATH variable at the time of compiling was: {}", path); /// ``` #[macro_export] macro_rules! env { ($name:expr) => ({ /* compiler built-in */ }) } /// Optionally inspect an environment variable at compile time. /// /// If the named environment variable is present at compile time, this will /// expand into an expression of type `Option<&'static str>` whose value is /// `Some` of the value of the environment variable. If the environment /// variable is not present, then this will expand to `None`. /// /// A compile time error is never emitted when using this macro regardless /// of whether the environment variable is present or not. /// /// # Example /// /// ```rust /// let key: Option<&'static str> = option_env!("SECRET_KEY"); /// println!("the secret key might be: {:?}", key); /// ``` #[macro_export] macro_rules! option_env { ($name:expr) => ({ /* compiler built-in */ }) } /// Concatenate identifiers into one identifier. /// /// This macro takes any number of comma-separated identifiers, and /// concatenates them all into one, yielding an expression which is a new /// identifier. Note that hygiene makes it such that this macro cannot /// capture local variables, and macros are only allowed in item, /// statement or expression position, meaning this macro may be difficult to /// use in some situations. /// /// # Examples /// /// ``` /// #![feature(concat_idents)] /// /// # fn main() { /// fn foobar() -> u32 { 23 } /// /// let f = concat_idents!(foo, bar); /// println!("{}", f()); /// # } /// ``` #[macro_export] macro_rules! concat_idents { ($($e:ident),*) => ({ /* compiler built-in */ }) } /// Concatenates literals into a static string slice. /// /// This macro takes any number of comma-separated literals, yielding an /// expression of type `&'static str` which represents all of the literals /// concatenated left-to-right. /// /// Integer and floating point literals are stringified in order to be /// concatenated. /// /// # Example /// /// ``` /// let s = concat!("test", 10, 'b', true); /// assert_eq!(s, "test10btrue"); /// ``` #[macro_export] macro_rules! concat { ($($e:expr),*) => ({ /* compiler built-in */ }) } /// A macro which expands to the line number on which it was invoked. /// /// The expanded expression has type `usize`, and the returned line is not /// the invocation of the `line!()` macro itself, but rather the first macro /// invocation leading up to the invocation of the `line!()` macro. /// /// # Example /// /// ``` /// let current_line = line!(); /// println!("defined on line: {}", current_line); /// ``` #[macro_export] macro_rules! line { () => ({ /* compiler built-in */ }) } /// A macro which expands to the column number on which it was invoked. /// /// The expanded expression has type `usize`, and the returned column is not /// the invocation of the `column!()` macro itself, but rather the first macro /// invocation leading up to the invocation of the `column!()` macro. /// /// # Example /// /// ``` /// let current_col = column!(); /// println!("defined on column: {}", current_col); /// ``` #[macro_export] macro_rules! column { () => ({ /* compiler built-in */ }) } /// A macro which expands to the file name from which it was invoked. /// /// The expanded expression has type `&'static str`, and the returned file /// is not the invocation of the `file!()` macro itself, but rather the /// first macro invocation leading up to the invocation of the `file!()` /// macro. /// /// # Example /// /// ``` /// let this_file = file!(); /// println!("defined in file: {}", this_file); /// ``` #[macro_export] macro_rules! file { () => ({ /* compiler built-in */ }) } /// A macro which stringifies its argument. /// /// This macro will yield an expression of type `&'static str` which is the /// stringification of all the tokens passed to the macro. No restrictions /// are placed on the syntax of the macro invocation itself. /// /// # Example /// /// ``` /// let one_plus_one = stringify!(1 + 1); /// assert_eq!(one_plus_one, "1 + 1"); /// ``` #[macro_export] macro_rules! stringify { ($t:tt) => ({ /* compiler built-in */ }) } /// Includes a utf8-encoded file as a string. /// /// This macro will yield an expression of type `&'static str` which is the /// contents of the filename specified. The file is located relative to the /// current file (similarly to how modules are found), /// /// # Example /// /// ```rust,ignore /// let secret_key = include_str!("secret-key.ascii"); /// ``` #[macro_export] macro_rules! include_str { ($file:expr) => ({ /* compiler built-in */ }) } /// Includes a file as a byte slice. /// /// This macro will yield an expression of type `&'static [u8]` which is /// the contents of the filename specified. The file is located relative to /// the current file (similarly to how modules are found), /// /// # Example /// /// ```rust,ignore /// let secret_key = include_bytes!("secret-key.bin"); /// ``` #[macro_export] macro_rules! include_bytes { ($file:expr) => ({ /* compiler built-in */ }) } /// Expands to a string that represents the current module path. /// /// The current module path can be thought of as the hierarchy of modules /// leading back up to the crate root. The first component of the path /// returned is the name of the crate currently being compiled. /// /// # Example /// /// ```rust /// mod test { /// pub fn foo() { /// assert!(module_path!().ends_with("test")); /// } /// } /// /// test::foo(); /// ``` #[macro_export] macro_rules! module_path { () => ({ /* compiler built-in */ }) } /// Boolean evaluation of configuration flags. /// /// In addition to the `#[cfg]` attribute, this macro is provided to allow /// boolean expression evaluation of configuration flags. This frequently /// leads to less duplicated code. /// /// The syntax given to this macro is the same syntax as the `cfg` /// attribute. /// /// # Example /// /// ```rust /// let my_directory = if cfg!(windows) { /// "windows-specific-directory" /// } else { /// "unix-directory" /// }; /// ``` #[macro_export] macro_rules! cfg { ($cfg:tt) => ({ /* compiler built-in */ }) } }