Crates.io | ergo-pin |
lib.rs | ergo-pin |
version | 0.1.0 |
source | src |
created_at | 2019-09-22 12:53:48.224111 |
updated_at | 2019-09-22 12:53:48.224111 |
description | Ergonomic stack pinning |
homepage | |
repository | https://github.com/Nemo157/ergo-pin-rs |
max_upload_size | |
id | 166801 |
size | 24,834 |
Immobilis ergo pin
Ergonomic stack pinning for Rust.
ergo-pin
exports a single proc-macro-attribute #[ergo_pin]
that can be applied to a
function/block/tt
-accepting-macro-invocation to provide the "magical" pin!
within the scope. You can consider this pin!
macro equivalent to a function
with the signature:
extern "bla̴ck̀ mag̸ic͘" fn pin!<T>(t: T) -> Pin<&'local mut T>;
it will take in any value and return a Pin<&mut _>
of the value, with the
correct local stack lifetime.
Internally the pin!
macro works by injecting extra statements before the
statement that contains it to create this Pin
ned reference, it's probably
easiest to see what it's doing by example. Given some code like
#[ergo_pin] {
quux(pin!(Foo::new().bar()).baz());
}
this will be re-written to
{
let mut __ergo_pin_0 = Foo::new().bar();
let __ergo_pin_0 = unsafe {
::core::pin::Pin::new_unchecked(&mut __ergo_pin_0)
};
quux(__ergo_pin_0.baz());
}
The expression passed to pin!
is first bound to a local variable, this is then
shadowed by a Pin
ned reference to itself (you may recognise this from the
pin-utils::pin_mut!
stack pinning macro), finally the pin!
call is replaced
with the local variable used.
Since this requires re-writing code outside the macro this can't be implemented
by as a normal pin!
macro, which is why the main entrypoint is the
#[ergo_pin]
attribute.
This crate only supports the current stable version of Rust, patch releases may use new features at any time.
Licensed under either of
at your option.
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you shall be dual licensed as above, without any additional terms or conditions.