cursive/cursive-core/src/utils/immutify.rs

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2018-09-24 20:43:19 +00:00
/*
// TODO: replace the 3 macros with 3 functions once they work correctly with
// reference arguments.
// (The returned closure must implement the for<'a> Fn(T, U<'a>)...
// TODO: replace the 3 macros/functions with a generic function when it can
// accept any number of arguments.
/// Wraps a `FnMut` into a `Fn`
///
/// This can be used to use a `FnMut` when a callack expects a `Fn`.
///
/// # Note
///
/// If the resulting `Fn` is called recursively, subsequent calls will be
/// no-ops.
pub fn immutify<F: FnMut(&mut Cursive)>(
f: F,
) -> impl for<'s> Fn(&'s mut Cursive) {
let callback = RefCell::new(f);
move |s| {
// Here's the weird trick: if we're already borrowed,
// just ignored the callback.
if let Ok(mut f) = callback.try_borrow_mut() {
// Beeeaaah that's ugly.
// Why do we need to manually dereference here?
(&mut *f)(s);
}
}
}
*/
/// Macro to wrap a `FnMut` with 1 argument into a `Fn`.
///
/// This can wrap any `FnMut` with a single arguments (for example `&mut Cursive`).
///
/// See [`immut2!`] and [`immut3!`] to support a different number of arguments.
///
/// # Note
///
/// If this function tries to call itself recursively (for example by
/// triggering an event in `Cursive`), the second call will be a no-op.
/// Enabling recursive calls would break the `FnMut` contract.
///
/// In addition, due to weird interaction between Higher-rank trait bounds and
/// closures, you should use the result from the macro directly, and not
/// assign it to a variable.
///
/// # Examples
///
/// ```rust
/// # use cursive_core::{Cursive, immut1};
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/// # fn main() {
/// # let mut siv = Cursive::dummy();
/// let mut i = 0;
/// // `Cursive::add_global_callback` takes a `Fn(&mut Cursive)`
/// siv.add_global_callback('q', immut1!(move |s: &mut Cursive| {
/// // But here we mutate the environment! Crazy!
/// i += 1;
/// if i == 5 {
/// s.quit();
/// }
/// }));
/// # }
/// ```
#[macro_export]
macro_rules! immut1 {
($f:expr) => {{
let callback = ::std::cell::RefCell::new($f);
move |s| {
if let Ok(mut f) = callback.try_borrow_mut() {
(&mut *f)(s)
}
}
}};
}
/// Macro to wrap a `FnMut` with 2 arguments into a `Fn`.
///
/// This can wrap any `FnMut` with two arguments.
///
/// See [`immut1!`] and [`immut3!`] to support a different number of arguments.
///
/// # Note
///
/// If this function tries to call itself recursively (for example by
/// triggering an event in `Cursive`), the second call will be a no-op.
/// Enabling recursive calls would break the `FnMut` contract.
///
/// In addition, due to weird interaction between Higher-rank trait bounds and
/// closures, you should use the result from the macro directly, and not
/// assign it to a variable.
#[macro_export]
macro_rules! immut2 {
($f:expr) => {{
let callback = ::std::cell::RefCell::new($f);
move |s, t| {
if let Ok(mut f) = callback.try_borrow_mut() {
(&mut *f)(s, t)
}
}
}};
}
/// Macro to wrap a `FnMut` with 3 arguments into a `Fn`.
///
/// This can wrap any `FnMut` with three arguments.
///
/// See [`immut1!`] and [`immut2!`] to support a different number of arguments.
///
/// # Note
///
/// If this function tries to call itself recursively (for example by
/// triggering an event in `Cursive`), the second call will be a no-op.
/// Enabling recursive calls would break the `FnMut` contract.
///
/// In addition, due to weird interaction between Higher-rank trait bounds and
/// closures, you should use the result from the macro directly, and not
/// assign it to a variable.
#[macro_export]
macro_rules! immut3 {
($f:expr) => {{
let callback = ::std::cell::RefCell::new($f);
move |s, t, u| {
if let Ok(mut f) = callback.try_borrow_mut() {
(&mut *f)(s, t, u)
}
}
}};
}