//! Simplest sync [Monad].
//!
//! For async, see [`future`].
//!
//! For abstracting away dealing with fallible data, see [`option`]/[`result`].
//!
//! [`future`]: super::future
//! [`option`]: super::option
//! [`result`]: super::result

use crate::func::class_prelude::*;

#[derive(SharedFunctorAny)]
pub struct SoloInstance;

impl WeakFunctorAny for SoloInstance {
    type FAny<'a, A: 'a + Send> = A;
}

impl<'a> Functor<'a> for SoloInstance {
    fn fmap<A: 'a + Send, B: 'a + Send>(fa: Self::F<A>, f: impl 'a + FnOnce(A) -> B) -> Self::F<B> {
        f(fa)
    }

    fn replace<A: 'a + Send, B: 'a + Send>(fa: Self::F<A>, b: B) -> Self::F<B> {
        drop(fa);
        b
    }

    fn void<A: 'a + Send>(fa: Self::F<A>) -> Self::F<()> {
        drop(fa);
    }
}

impl<'a> Pure<'a> for SoloInstance {
    fn pure<A: 'a + Send>(a: A) -> Self::F<A> {
        a
    }
}

impl<'a> ApplicativeSeq<'a> for SoloInstance {
    fn seq<A: 'a + Send, B: 'a + Send>(
        ff: Self::F<impl 'a + Send + FnOnce(A) -> B>,
        fa: Self::F<A>,
    ) -> Self::F<B> {
        ff(fa)
    }
}

impl<'a> ApplicativeLA2<'a> for SoloInstance {
    fn la2<A: 'a + Send, B: 'a + Send, C: 'a + Send>(
        fa: Self::F<A>,
        fb: Self::F<B>,
        f: impl 'a + Send + FnOnce(A, B) -> C,
    ) -> Self::F<C> {
        f(fa, fb)
    }
}

impl<'a> ApplicativeTuple<'a> for SoloInstance {
    fn tuple<A: 'a + Send, B: 'a + Send>((fa, fb): (Self::F<A>, Self::F<B>)) -> Self::F<(A, B)> {
        (fa, fb)
    }
}

impl ApplicativeSelect<'_> for SoloInstance {}

impl<'a> Applicative<'a> for SoloInstance {
    fn discard_first<A: 'a + Send, B: 'a + Send>(fa: Self::F<A>, fb: Self::F<B>) -> Self::F<B> {
        drop(fa);
        fb
    }

    fn discard_second<A: 'a + Send, B: 'a + Send>(fa: Self::F<A>, fb: Self::F<B>) -> Self::F<A> {
        drop(fb);
        fa
    }
}

impl<'a> Monad<'a> for SoloInstance {
    fn bind<A: 'a + Send, B: 'a + Send>(
        fa: Self::F<A>,
        f: impl 'a + FnOnce(A) -> Self::F<B>,
    ) -> Self::F<B> {
        f(fa)
    }

    fn iterate<B: 'a + Send>(mut f: impl Iterative<'a, T = Self, B = B>) -> Self::F<B> {
        loop {
            match f.next() {
                ControlFlow::Continue(next_f) => f = next_f,
                ControlFlow::Break(b) => return b,
            }
        }
    }

    fn join<A: 'a + Send>(ffa: Self::F<Self::F<A>>) -> Self::F<A> {
        ffa
    }
}

impl<'a> LocalFunctor<'a> for SoloInstance {
    fn unstuff<A: 'a + Send, B: 'a + Send>(
        state: Self::F<ControlFlow<B, A>>,
    ) -> ControlFlow<Self::F<B>, A> {
        state
    }

    fn stuff<A: 'a + Send, T: Pure<'a>>(fa: Self::F<T::F<A>>) -> T::F<Self::F<A>> {
        fa
    }
}

impl<'a> Fail<'a, std::convert::Infallible> for SoloInstance {
    fn fail<A: 'a + Send>(e: std::convert::Infallible) -> Self::F<A> {
        match e {}
    }
}

#[cfg(test)]
mod solo_tests {
    use std::sync::Arc;

    use super::{test_suite, tests, SoloInstance};

    type T = SoloInstance;

    impl<'a> tests::ToEq<'a> for T {
        type Eq<A: 'a + Send + PartialEq + std::fmt::Debug> = Self::F<A>;

        fn to_eq<A: 'a + Send + PartialEq + std::fmt::Debug>(fa: Self::F<A>) -> Self::Eq<A> {
            fa
        }
    }

    impl<'a> test_suite::FunctorTestSuite<'a> for T {
        fn sample<A: 'a + Send, F: FnMut(Arc<dyn test_suite::WrapFunction<'a, A, Self::F<A>>>)>(
            mut f: F,
        ) {
            f(Arc::new(|a| a));
        }
    }

    #[test]
    fn monad_follows_laws() {
        test_suite::monad_follows_laws::<T>().unwrap();
    }

    #[test]
    fn shared_follows_laws() {
        test_suite::shared_follows_laws::<T>().unwrap();
    }

    #[test]
    fn local_follows_laws() {
        test_suite::local_follows_laws::<T>().unwrap();
    }
}