rustc-ap-rustc_data_structures 660.0.0

//! This module provides a way to deal with self-referential data.
//!
//! The main idea is to allocate such data in a generator frame and then
//! give access to it by executing user-provided closures inside that generator.
//! The module provides a safe abstraction for the latter task.
//!
//! The interface consists of two exported macros meant to be used together:
//! * `declare_box_region_type` wraps a generator inside a struct with `access`
//!   method which accepts closures.
//! * `box_region_allow_access` is a helper which should be called inside
//!   a generator to actually execute those closures.

use std::marker::PhantomData;
use std::ops::{Generator, GeneratorState};
use std::pin::Pin;

#[derive(Copy, Clone)]
pub struct AccessAction(*mut dyn FnMut());

impl AccessAction {
    pub fn get(self) -> *mut dyn FnMut() {
        self.0
    }
}

#[derive(Copy, Clone)]
pub enum Action {
    Initial,
    Access(AccessAction),
    Complete,
}

pub struct PinnedGenerator<I, A, R> {
    generator: Pin<Box<dyn Generator<Action, Yield = YieldType<I, A>, Return = R>>>,
}

impl<I, A, R> PinnedGenerator<I, A, R> {
    pub fn new<T: Generator<Action, Yield = YieldType<I, A>, Return = R> + 'static>(
        generator: T,
    ) -> (I, Self) {
        let mut result = PinnedGenerator { generator: Box::pin(generator) };

        // Run it to the first yield to set it up
        let init = match Pin::new(&mut result.generator).resume(Action::Initial) {
            GeneratorState::Yielded(YieldType::Initial(y)) => y,
            _ => panic!(),
        };

        (init, result)
    }

    pub unsafe fn access(&mut self, closure: *mut dyn FnMut()) {
        // Call the generator, which in turn will call the closure
        if let GeneratorState::Complete(_) =
            Pin::new(&mut self.generator).resume(Action::Access(AccessAction(closure)))
        {
            panic!()
        }
    }

    pub fn complete(&mut self) -> R {
        // Tell the generator we want it to complete, consuming it and yielding a result
        let result = Pin::new(&mut self.generator).resume(Action::Complete);
        if let GeneratorState::Complete(r) = result { r } else { panic!() }
    }
}

#[derive(PartialEq)]
pub struct Marker<T>(PhantomData<T>);

impl<T> Marker<T> {
    pub unsafe fn new() -> Self {
        Marker(PhantomData)
    }
}

pub enum YieldType<I, A> {
    Initial(I),
    Accessor(Marker<A>),
}

#[macro_export]
#[allow_internal_unstable(fn_traits)]
macro_rules! declare_box_region_type {
    (impl $v:vis
     $name: ident,
     $yield_type:ty,
     for($($lifetimes:tt)*),
     ($($args:ty),*) -> ($reti:ty, $retc:ty)
    ) => {
        $v struct $name($crate::box_region::PinnedGenerator<
            $reti,
            for<$($lifetimes)*> fn(($($args,)*)),
            $retc
        >);

        impl $name {
            fn new<T: ::std::ops::Generator<$crate::box_region::Action, Yield = $yield_type, Return = $retc> + 'static>(
                generator: T
            ) -> ($reti, Self) {
                let (initial, pinned) = $crate::box_region::PinnedGenerator::new(generator);
                (initial, $name(pinned))
            }

            $v fn access<F: for<$($lifetimes)*> FnOnce($($args,)*) -> R, R>(&mut self, f: F) -> R {
                // Turn the FnOnce closure into *mut dyn FnMut()
                // so we can pass it in to the generator
                let mut r = None;
                let mut f = Some(f);
                let mut_f: &mut dyn for<$($lifetimes)*> FnMut(($($args,)*)) =
                    &mut |args| {
                        let f = f.take().unwrap();
                        r = Some(FnOnce::call_once(f, args));
                };
                let mut_f = mut_f as *mut dyn for<$($lifetimes)*> FnMut(($($args,)*));

                // Get the generator to call our closure
                unsafe {
                    self.0.access(::std::mem::transmute(mut_f));
                }

                // Unwrap the result
                r.unwrap()
            }

            $v fn complete(mut self) -> $retc {
                self.0.complete()
            }

            fn initial_yield(value: $reti) -> $yield_type {
                $crate::box_region::YieldType::Initial(value)
            }
        }
    };

    ($v:vis $name: ident, for($($lifetimes:tt)*), ($($args:ty),*) -> ($reti:ty, $retc:ty)) => {
        declare_box_region_type!(
            impl $v $name,
            $crate::box_region::YieldType<$reti, for<$($lifetimes)*> fn(($($args,)*))>,
            for($($lifetimes)*),
            ($($args),*) -> ($reti, $retc)
        );
    };
}

#[macro_export]
#[allow_internal_unstable(fn_traits)]
macro_rules! box_region_allow_access {
    (for($($lifetimes:tt)*), ($($args:ty),*), ($($exprs:expr),*), $action:ident) => {
        loop {
            match $action {
                $crate::box_region::Action::Access(accessor) => {
                    let accessor: &mut dyn for<$($lifetimes)*> FnMut($($args),*) = unsafe {
                        ::std::mem::transmute(accessor.get())
                    };
                    (*accessor)(($($exprs),*));
                    unsafe {
                        let marker = $crate::box_region::Marker::<
                            for<$($lifetimes)*> fn(($($args,)*))
                        >::new();
                        $action = yield $crate::box_region::YieldType::Accessor(marker);
                    };
                }
                $crate::box_region::Action::Complete => break,
                $crate::box_region::Action::Initial => panic!("unexpected box_region action: Initial"),
            }
        }
    }
}