use std::{future::Future, pin::Pin}; use futures::{future::Shared, try_join, FutureExt}; use crate::func::*; #[derive(CovariantFunctor)] pub struct TryFutureClass(E); impl WeakFunctor for TryFutureClass { type F<'a, A: 'a> = Pin>>> where Self: 'a; } impl Functor for TryFutureClass { fn fmap<'a, A: 'a, B: 'a>(f: impl 'a + FnOnce(A) -> B, fa: Self::F<'a, A>) -> Self::F<'a, B> where Self: 'a, { Box::pin(async { Ok(f(fa.await?)) }) } fn replace<'a, A: 'a, B: 'a>(fa: Self::F<'a, A>, b: B) -> Self::F<'a, B> where Self: 'a, { Box::pin(async { fa.await?; Ok(b) }) } } impl Pure for TryFutureClass { fn pure<'a, A: 'a>(a: A) -> Self::F<'a, A> where Self: 'a, { Box::pin(async { Ok(a) }) } } impl ApplicativeSeq for TryFutureClass { fn seq<'a, A: 'a, B: 'a>( ff: Self::F<'a, impl 'a + FnOnce(A) -> B>, fa: Self::F<'a, A>, ) -> Self::F<'a, B> where Self: 'a, { Box::pin(async { let (f, a) = try_join!(ff, fa)?; Ok(f(a)) }) } } impl ApplicativeLA2 for TryFutureClass { fn la2<'a, A: 'a, B: 'a, C: 'a>( f: impl 'a + FnOnce(A, B) -> C, fa: Self::F<'a, A>, fb: Self::F<'a, B>, ) -> Self::F<'a, C> where Self: 'a, { Box::pin(async { let (a, b) = try_join!(fa, fb)?; Ok(f(a, b)) }) } } impl ApplicativeTuple for TryFutureClass { fn tuple<'a, A: 'a, B: 'a>((fa, fb): (Self::F<'a, A>, Self::F<'a, B>)) -> Self::F<'a, (A, B)> where Self: 'a, { Box::pin(async { try_join!(fa, fb) }) } } impl Applicative for TryFutureClass { fn discard_first<'a, A: 'a, B: 'a>(fa: Self::F<'a, A>, fb: Self::F<'a, B>) -> Self::F<'a, B> where Self: 'a, { Box::pin(async { Ok(try_join!(fa, fb)?.1) }) } fn discard_second<'a, A: 'a, B: 'a>(fa: Self::F<'a, A>, fb: Self::F<'a, B>) -> Self::F<'a, A> where Self: 'a, { Box::pin(async { Ok(try_join!(fa, fb)?.0) }) } } impl Monad for TryFutureClass { fn bind<'a, A: 'a, B: 'a>( fa: Self::F<'a, A>, f: impl 'a + FnOnce(A) -> Self::F<'a, B>, ) -> Self::F<'a, B> where Self: 'a, { Box::pin(async { f(fa.await?).await }) } fn iterate_mut<'a, A: 'a, B: 'a>( mut a: A, mut f: impl 'a + FnMut(A) -> Self::F<'a, ControlFlow>, ) -> Self::F<'a, B> where Self: 'a, { Box::pin(async move { loop { match f(a).await? { ControlFlow::Continue(next_a) => a = next_a, ControlFlow::Break(b) => return Ok(b), }; } }) } fn iterate_argument<'a, A: 'a, B: 'a>( mut a: A, mut f: impl AIterative<'a, T = Self, A = A, B = B>, ) -> Self::F<'a, B> where Self: 'a, { Box::pin(async move { loop { match f.next(a).await? { ControlFlow::Continue((next_a, next_f)) => (a, f) = (next_a, next_f), ControlFlow::Break(b) => return Ok(b), } } }) } fn iterate<'a, B: 'a>(mut f: impl Iterative<'a, T = Self, B = B>) -> Self::F<'a, B> where Self: 'a, { Box::pin(async move { loop { match f.next().await? { ControlFlow::Continue(next_f) => f = next_f, ControlFlow::Break(b) => return Ok(b), } } }) } fn join<'a, A: 'a>(ffa: Self::F<'a, Self::F<'a, A>>) -> Self::F<'a, A> where Self: 'a, { Box::pin(async { ffa.await?.await }) } } impl SharedFunctor for TryFutureClass { type Shared<'a, A: 'a + Clone> = Shared>>>> where Self: 'a; fn share<'a, A: 'a + Clone>(fa: Self::F<'a, A>) -> Self::Shared<'a, A> where Self: 'a, { fa.shared() } fn unshare<'a, A: 'a + Clone>(sa: Self::Shared<'a, A>) -> Self::F<'a, A> where Self: 'a, { Box::pin(sa) } } impl Fail for TryFutureClass { fn fail<'a, A: 'a>(e: E) -> Self::F<'a, A> where Self: 'a, E: 'a, { Box::pin(async { Err(e) }) } } struct FutureFailAny; impl MonadFailAny for FutureFailAny { type W = TryFutureClass; fn map_err<'a, A: 'a, E0: 'a, E1: 'a>( wa: as WeakFunctor>::F<'a, A>, f: impl 'a + FnOnce(E0) -> E1, ) -> as WeakFunctor>::F<'a, A> where Self: 'a, { Box::pin(async { wa.await.map_err(f) }) } fn bind_err<'a, A: 'a, E0: 'a, E1: 'a>( wa: as WeakFunctor>::F<'a, A>, f: impl 'a + FnOnce(E0) -> as WeakFunctor>::F<'a, A>, ) -> as WeakFunctor>::F<'a, A> where Self: 'a, { Box::pin(async { match wa.await { Ok(a) => Ok(a), Err(e) => f(e).await, } }) } fn rotate_out<'a, A: 'a, E0: 'a, E1: 'a>( wa: as WeakFunctor>::F<'a, Result>, ) -> > as WeakFunctor>::F<'a, A> where Self: 'a, { Box::pin(async { match wa.await { Ok(Ok(a)) => Ok(a), Ok(Err(e)) => Err(Ok(e)), Err(e) => Err(Err(e)), } }) } } impl MonadFailOver for FutureFailAny { fn unstuff<'a, A: 'a, E: 'a>( wa: as WeakFunctor>::F<'a, A>, ) -> ::F<'a, Result> where Self: 'a, classes::future::FutureClass: 'a, { wa } fn stuff<'a, A: 'a, E: 'a>( fa: ::F<'a, Result>, ) -> as WeakFunctor>::F<'a, A> where Self: 'a, classes::future::FutureClass: 'a, { fa } }