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481 lines
16 KiB
481 lines
16 KiB
// Copyright 2014 The Rust Project Developers. See the COPYRIGHT |
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// file at the top-level directory of this distribution and at |
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// http://rust-lang.org/COPYRIGHT. |
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// |
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// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or |
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// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license |
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// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your |
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// option. This file may not be copied, modified, or distributed |
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// except according to those terms. |
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//! Standard library macros |
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//! |
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//! This modules contains a set of macros which are exported from the standard |
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//! library. Each macro is available for use when linking against the standard |
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//! library. |
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/// The entry point for panic of Rust threads. |
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/// |
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/// This macro is used to inject panic into a Rust thread, causing the thread to |
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/// panic entirely. Each thread's panic can be reaped as the `Box<Any>` type, |
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/// and the single-argument form of the `panic!` macro will be the value which |
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/// is transmitted. |
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/// |
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/// The multi-argument form of this macro panics with a string and has the |
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/// `format!` syntax for building a string. |
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/// |
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/// # Examples |
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/// |
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/// ```should_panic |
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/// # #![allow(unreachable_code)] |
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/// panic!(); |
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/// panic!("this is a terrible mistake!"); |
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/// panic!(4); // panic with the value of 4 to be collected elsewhere |
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/// panic!("this is a {} {message}", "fancy", message = "message"); |
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/// ``` |
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#[macro_export] |
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#[stable(feature = "rust1", since = "1.0.0")] |
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#[allow_internal_unstable] |
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macro_rules! panic { |
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() => ({ |
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panic!("explicit panic") |
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}); |
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($msg:expr) => ({ |
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$crate::rt::begin_panic($msg, { |
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// static requires less code at runtime, more constant data |
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static _FILE_LINE: (&'static str, u32) = (file!(), line!()); |
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&_FILE_LINE |
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}) |
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}); |
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($fmt:expr, $($arg:tt)+) => ({ |
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$crate::rt::begin_panic_fmt(&format_args!($fmt, $($arg)+), { |
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// The leading _'s are to avoid dead code warnings if this is |
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// used inside a dead function. Just `#[allow(dead_code)]` is |
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// insufficient, since the user may have |
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// `#[forbid(dead_code)]` and which cannot be overridden. |
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static _FILE_LINE: (&'static str, u32) = (file!(), line!()); |
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&_FILE_LINE |
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}) |
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}); |
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} |
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/// Macro for printing to the standard output. |
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/// |
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/// Equivalent to the `println!` macro except that a newline is not printed at |
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/// the end of the message. |
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/// |
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/// Note that stdout is frequently line-buffered by default so it may be |
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/// necessary to use `io::stdout().flush()` to ensure the output is emitted |
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/// immediately. |
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/// |
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/// # Panics |
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/// |
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/// Panics if writing to `io::stdout()` fails. |
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/// |
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/// # Examples |
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/// |
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/// ``` |
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/// use std::io::{self, Write}; |
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/// |
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/// print!("this "); |
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/// print!("will "); |
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/// print!("be "); |
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/// print!("on "); |
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/// print!("the "); |
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/// print!("same "); |
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/// print!("line "); |
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/// |
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/// io::stdout().flush().unwrap(); |
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/// |
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/// print!("this string has a newline, why not choose println! instead?\n"); |
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/// |
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/// io::stdout().flush().unwrap(); |
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/// ``` |
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#[macro_export] |
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#[stable(feature = "rust1", since = "1.0.0")] |
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#[allow_internal_unstable] |
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macro_rules! print { |
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($($arg:tt)*) => ($crate::io::_print(format_args!($($arg)*))); |
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} |
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/// Macro for printing to the standard output, with a newline. On all |
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/// platforms, the newline is the LINE FEED character (`\n`/`U+000A`) alone |
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/// (no additional CARRIAGE RETURN (`\r`/`U+000D`). |
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/// |
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/// Use the `format!` syntax to write data to the standard output. |
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/// See `std::fmt` for more information. |
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/// |
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/// # Panics |
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/// |
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/// Panics if writing to `io::stdout()` fails. |
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/// |
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/// # Examples |
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/// |
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/// ``` |
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/// println!(); |
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/// println!("hello there!"); |
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/// println!("format {} arguments", "some"); |
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/// ``` |
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#[macro_export] |
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#[stable(feature = "rust1", since = "1.0.0")] |
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macro_rules! println { |
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() => (print!("\n")); |
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($fmt:expr) => (print!(concat!($fmt, "\n"))); |
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($fmt:expr, $($arg:tt)*) => (print!(concat!($fmt, "\n"), $($arg)*)); |
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} |
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/// A macro to select an event from a number of receivers. |
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/// |
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/// This macro is used to wait for the first event to occur on a number of |
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/// receivers. It places no restrictions on the types of receivers given to |
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/// this macro, this can be viewed as a heterogeneous select. |
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/// |
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/// # Examples |
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/// |
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/// ``` |
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/// #![feature(mpsc_select)] |
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/// |
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/// use std::thread; |
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/// use std::sync::mpsc; |
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/// |
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/// // two placeholder functions for now |
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/// fn long_running_thread() {} |
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/// fn calculate_the_answer() -> u32 { 42 } |
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/// |
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/// let (tx1, rx1) = mpsc::channel(); |
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/// let (tx2, rx2) = mpsc::channel(); |
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/// |
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/// thread::spawn(move|| { long_running_thread(); tx1.send(()).unwrap(); }); |
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/// thread::spawn(move|| { tx2.send(calculate_the_answer()).unwrap(); }); |
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/// |
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/// select! { |
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/// _ = rx1.recv() => println!("the long running thread finished first"), |
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/// answer = rx2.recv() => { |
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/// println!("the answer was: {}", answer.unwrap()); |
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/// } |
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/// } |
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/// # drop(rx1.recv()); |
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/// # drop(rx2.recv()); |
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/// ``` |
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/// |
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/// For more information about select, see the `std::sync::mpsc::Select` structure. |
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#[macro_export] |
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#[unstable(feature = "mpsc_select", issue = "27800")] |
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macro_rules! select { |
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( |
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$($name:pat = $rx:ident.$meth:ident() => $code:expr),+ |
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) => ({ |
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use $crate::sync::mpsc::Select; |
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let sel = Select::new(); |
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$( let mut $rx = sel.handle(&$rx); )+ |
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unsafe { |
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$( $rx.add(); )+ |
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} |
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let ret = sel.wait(); |
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$( if ret == $rx.id() { let $name = $rx.$meth(); $code } else )+ |
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{ unreachable!() } |
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}) |
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} |
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#[cfg(test)] |
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macro_rules! assert_approx_eq { |
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($a:expr, $b:expr) => ({ |
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let (a, b) = (&$a, &$b); |
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assert!((*a - *b).abs() < 1.0e-6, |
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"{} is not approximately equal to {}", *a, *b); |
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}) |
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} |
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/// Built-in macros to the compiler itself. |
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/// |
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/// These macros do not have any corresponding definition with a `macro_rules!` |
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/// macro, but are documented here. Their implementations can be found hardcoded |
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/// into libsyntax itself. |
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#[cfg(dox)] |
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pub mod builtin { |
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/// The core macro for formatted string creation & output. |
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/// |
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/// This macro produces a value of type [`fmt::Arguments`]. This value can be |
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/// passed to the functions in [`std::fmt`] for performing useful functions. |
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/// All other formatting macros ([`format!`], [`write!`], [`println!`], etc) are |
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/// proxied through this one. |
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/// |
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/// For more information, see the documentation in [`std::fmt`]. |
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/// |
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/// [`fmt::Arguments`]: ../std/fmt/struct.Arguments.html |
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/// [`std::fmt`]: ../std/fmt/index.html |
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/// [`format!`]: ../std/macro.format.html |
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/// [`write!`]: ../std/macro.write.html |
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/// [`println!`]: ../std/macro.println.html |
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/// |
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/// # Examples |
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/// |
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/// ``` |
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/// use std::fmt; |
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/// |
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/// let s = fmt::format(format_args!("hello {}", "world")); |
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/// assert_eq!(s, format!("hello {}", "world")); |
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/// |
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/// ``` |
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#[stable(feature = "rust1", since = "1.0.0")] |
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#[macro_export] |
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macro_rules! format_args { ($fmt:expr, $($args:tt)*) => ({ |
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/* compiler built-in */ |
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}) } |
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/// Inspect an environment variable at compile time. |
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/// |
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/// This macro will expand to the value of the named environment variable at |
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/// compile time, yielding an expression of type `&'static str`. |
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/// |
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/// If the environment variable is not defined, then a compilation error |
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/// will be emitted. To not emit a compile error, use the `option_env!` |
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/// macro instead. |
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/// |
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/// # Examples |
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/// |
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/// ``` |
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/// let path: &'static str = env!("PATH"); |
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/// println!("the $PATH variable at the time of compiling was: {}", path); |
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/// ``` |
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#[stable(feature = "rust1", since = "1.0.0")] |
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#[macro_export] |
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macro_rules! env { ($name:expr) => ({ /* compiler built-in */ }) } |
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/// Optionally inspect an environment variable at compile time. |
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/// |
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/// If the named environment variable is present at compile time, this will |
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/// expand into an expression of type `Option<&'static str>` whose value is |
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/// `Some` of the value of the environment variable. If the environment |
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/// variable is not present, then this will expand to `None`. |
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/// |
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/// A compile time error is never emitted when using this macro regardless |
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/// of whether the environment variable is present or not. |
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/// |
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/// # Examples |
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/// |
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/// ``` |
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/// let key: Option<&'static str> = option_env!("SECRET_KEY"); |
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/// println!("the secret key might be: {:?}", key); |
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/// ``` |
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#[stable(feature = "rust1", since = "1.0.0")] |
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#[macro_export] |
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macro_rules! option_env { ($name:expr) => ({ /* compiler built-in */ }) } |
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/// Concatenate identifiers into one identifier. |
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/// |
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/// This macro takes any number of comma-separated identifiers, and |
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/// concatenates them all into one, yielding an expression which is a new |
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/// identifier. Note that hygiene makes it such that this macro cannot |
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/// capture local variables. Also, as a general rule, macros are only |
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/// allowed in item, statement or expression position. That means while |
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/// you may use this macro for referring to existing variables, functions or |
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/// modules etc, you cannot define a new one with it. |
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/// |
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/// # Examples |
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/// |
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/// ``` |
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/// #![feature(concat_idents)] |
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/// |
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/// # fn main() { |
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/// fn foobar() -> u32 { 23 } |
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/// |
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/// let f = concat_idents!(foo, bar); |
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/// println!("{}", f()); |
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/// |
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/// // fn concat_idents!(new, fun, name) { } // not usable in this way! |
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/// # } |
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/// ``` |
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#[unstable(feature = "concat_idents_macro", issue = "29599")] |
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#[macro_export] |
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macro_rules! concat_idents { |
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($($e:ident),*) => ({ /* compiler built-in */ }) |
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} |
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/// Concatenates literals into a static string slice. |
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/// |
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/// This macro takes any number of comma-separated literals, yielding an |
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/// expression of type `&'static str` which represents all of the literals |
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/// concatenated left-to-right. |
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/// |
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/// Integer and floating point literals are stringified in order to be |
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/// concatenated. |
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/// |
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/// # Examples |
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/// |
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/// ``` |
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/// let s = concat!("test", 10, 'b', true); |
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/// assert_eq!(s, "test10btrue"); |
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/// ``` |
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#[stable(feature = "rust1", since = "1.0.0")] |
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#[macro_export] |
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macro_rules! concat { ($($e:expr),*) => ({ /* compiler built-in */ }) } |
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/// A macro which expands to the line number on which it was invoked. |
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/// |
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/// The expanded expression has type `u32`, and the returned line is not |
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/// the invocation of the `line!()` macro itself, but rather the first macro |
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/// invocation leading up to the invocation of the `line!()` macro. |
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/// |
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/// # Examples |
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/// |
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/// ``` |
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/// let current_line = line!(); |
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/// println!("defined on line: {}", current_line); |
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/// ``` |
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#[stable(feature = "rust1", since = "1.0.0")] |
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#[macro_export] |
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macro_rules! line { () => ({ /* compiler built-in */ }) } |
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/// A macro which expands to the column number on which it was invoked. |
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/// |
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/// The expanded expression has type `u32`, and the returned column is not |
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/// the invocation of the `column!()` macro itself, but rather the first macro |
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/// invocation leading up to the invocation of the `column!()` macro. |
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/// |
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/// # Examples |
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/// |
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/// ``` |
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/// let current_col = column!(); |
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/// println!("defined on column: {}", current_col); |
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/// ``` |
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#[stable(feature = "rust1", since = "1.0.0")] |
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#[macro_export] |
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macro_rules! column { () => ({ /* compiler built-in */ }) } |
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/// A macro which expands to the file name from which it was invoked. |
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/// |
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/// The expanded expression has type `&'static str`, and the returned file |
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/// is not the invocation of the `file!()` macro itself, but rather the |
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/// first macro invocation leading up to the invocation of the `file!()` |
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/// macro. |
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/// |
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/// # Examples |
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/// |
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/// ``` |
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/// let this_file = file!(); |
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/// println!("defined in file: {}", this_file); |
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/// ``` |
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#[stable(feature = "rust1", since = "1.0.0")] |
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#[macro_export] |
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macro_rules! file { () => ({ /* compiler built-in */ }) } |
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/// A macro which stringifies its argument. |
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/// |
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/// This macro will yield an expression of type `&'static str` which is the |
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/// stringification of all the tokens passed to the macro. No restrictions |
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/// are placed on the syntax of the macro invocation itself. |
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/// |
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/// Note that the expanded results of the input tokens may change in the |
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/// future. You should be careful if you rely on the output. |
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/// |
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/// # Examples |
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/// |
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/// ``` |
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/// let one_plus_one = stringify!(1 + 1); |
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/// assert_eq!(one_plus_one, "1 + 1"); |
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/// ``` |
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#[stable(feature = "rust1", since = "1.0.0")] |
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#[macro_export] |
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macro_rules! stringify { ($t:tt) => ({ /* compiler built-in */ }) } |
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/// Includes a utf8-encoded file as a string. |
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/// |
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/// The file is located relative to the current file. (similarly to how |
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/// modules are found) |
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/// |
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/// This macro will yield an expression of type `&'static str` which is the |
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/// contents of the file. |
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/// |
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/// # Examples |
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/// |
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/// ```rust,ignore |
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/// let secret_key = include_str!("secret-key.ascii"); |
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/// ``` |
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#[stable(feature = "rust1", since = "1.0.0")] |
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#[macro_export] |
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macro_rules! include_str { ($file:expr) => ({ /* compiler built-in */ }) } |
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/// Includes a file as a reference to a byte array. |
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/// |
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/// The file is located relative to the current file. (similarly to how |
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/// modules are found) |
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/// |
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/// This macro will yield an expression of type `&'static [u8; N]` which is |
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/// the contents of the file. |
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/// |
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/// # Examples |
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/// |
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/// ```rust,ignore |
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/// let secret_key = include_bytes!("secret-key.bin"); |
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/// ``` |
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#[stable(feature = "rust1", since = "1.0.0")] |
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#[macro_export] |
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macro_rules! include_bytes { ($file:expr) => ({ /* compiler built-in */ }) } |
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/// Expands to a string that represents the current module path. |
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/// |
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/// The current module path can be thought of as the hierarchy of modules |
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/// leading back up to the crate root. The first component of the path |
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/// returned is the name of the crate currently being compiled. |
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/// |
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/// # Examples |
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/// |
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/// ``` |
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/// mod test { |
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/// pub fn foo() { |
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/// assert!(module_path!().ends_with("test")); |
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/// } |
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/// } |
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/// |
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/// test::foo(); |
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/// ``` |
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#[stable(feature = "rust1", since = "1.0.0")] |
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#[macro_export] |
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macro_rules! module_path { () => ({ /* compiler built-in */ }) } |
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/// Boolean evaluation of configuration flags. |
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/// |
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/// In addition to the `#[cfg]` attribute, this macro is provided to allow |
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/// boolean expression evaluation of configuration flags. This frequently |
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/// leads to less duplicated code. |
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/// |
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/// The syntax given to this macro is the same syntax as [the `cfg` |
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/// attribute](../reference.html#conditional-compilation). |
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/// |
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/// # Examples |
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/// |
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/// ``` |
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/// let my_directory = if cfg!(windows) { |
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/// "windows-specific-directory" |
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/// } else { |
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/// "unix-directory" |
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/// }; |
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/// ``` |
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#[stable(feature = "rust1", since = "1.0.0")] |
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#[macro_export] |
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macro_rules! cfg { ($($cfg:tt)*) => ({ /* compiler built-in */ }) } |
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/// Parse a file as an expression or an item according to the context. |
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/// |
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/// The file is located relative to the current file. (similarly to how |
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/// modules are found) |
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/// |
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/// Using this macro is often a bad idea, because if the file is |
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/// parsed as an expression, it is going to be placed in the |
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/// surrounding code unhygenically. This could result in variables |
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/// or functions being different from what the file expected if |
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/// there are variables or functions that have the same name in |
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/// the current file. |
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/// |
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/// # Examples |
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/// |
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/// ```ignore |
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/// fn foo() { |
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/// include!("/path/to/a/file") |
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/// } |
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/// ``` |
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#[stable(feature = "rust1", since = "1.0.0")] |
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#[macro_export] |
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macro_rules! include { ($file:expr) => ({ /* compiler built-in */ }) } |
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}
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