#![allow(
    clippy::type_complexity,
    clippy::too_many_arguments,
    clippy::large_enum_variant
)]

use mpstthree::binary::struct_trait::{end::End, recv::Recv, send::Send};
use mpstthree::generate;
use mpstthree::role::broadcast::RoleBroadcast;
use mpstthree::role::end::RoleEnd;

use std::error::Error;

static LOOPS: i64 = 100;

// Create new roles
generate!("recursive", MeshedChannels, A, B, C, D, E);

// Types
// A
enum Branching0fromEtoA {
    Forward(MeshedChannels<Send<(), End>, End, End, RecursAtoE, RoleB<RoleE<RoleEnd>>, NameA>),
    Backward(MeshedChannels<Recv<(), End>, End, End, RecursAtoE, RoleB<RoleE<RoleEnd>>, NameA>),
    Done(MeshedChannels<End, End, End, End, RoleEnd, NameA>),
}
type RecursAtoE = Recv<Branching0fromEtoA, End>;

// B
enum Branching0fromEtoB {
    Forward(
        MeshedChannels<
            Recv<(), End>,
            Send<(), End>,
            End,
            RecursBtoE,
            RoleA<RoleC<RoleE<RoleEnd>>>,
            NameB,
        >,
    ),
    Backward(
        MeshedChannels<
            Send<(), End>,
            Recv<(), End>,
            End,
            RecursBtoE,
            RoleC<RoleA<RoleE<RoleEnd>>>,
            NameB,
        >,
    ),
    Done(MeshedChannels<End, End, End, End, RoleEnd, NameB>),
}
type RecursBtoE = Recv<Branching0fromEtoB, End>;

// C
enum Branching0fromEtoC {
    Forward(
        MeshedChannels<
            End,
            Recv<(), End>,
            Send<(), End>,
            RecursCtoE,
            RoleB<RoleD<RoleE<RoleEnd>>>,
            NameC,
        >,
    ),
    Backward(
        MeshedChannels<
            End,
            Send<(), End>,
            Recv<(), End>,
            RecursCtoE,
            RoleD<RoleB<RoleE<RoleEnd>>>,
            NameC,
        >,
    ),
    Done(MeshedChannels<End, End, End, End, RoleEnd, NameC>),
}
type RecursCtoE = Recv<Branching0fromEtoC, End>;

// D
enum Branching0fromEtoD {
    Forward(
        MeshedChannels<
            End,
            End,
            Recv<(), End>,
            Send<(), RecursDtoE>,
            RoleC<RoleE<RoleE<RoleEnd>>>,
            NameD,
        >,
    ),
    Backward(
        MeshedChannels<
            End,
            End,
            Send<(), End>,
            Recv<(), RecursDtoE>,
            RoleE<RoleC<RoleE<RoleEnd>>>,
            NameD,
        >,
    ),
    Done(MeshedChannels<End, End, End, End, RoleEnd, NameD>),
}
type RecursDtoE = Recv<Branching0fromEtoD, End>;

// E
type Choose0fromEtoA = Send<Branching0fromEtoA, End>;
type Choose0fromEtoB = Send<Branching0fromEtoB, End>;
type Choose0fromEtoC = Send<Branching0fromEtoC, End>;
type Choose0fromEtoD = Send<Branching0fromEtoD, End>;
type EndpointForwardE = MeshedChannels<
    Choose0fromEtoA,
    Choose0fromEtoB,
    Choose0fromEtoC,
    Recv<(), Choose0fromEtoD>,
    RoleD<RoleBroadcast>,
    NameE,
>;
type EndpointBackwardE = MeshedChannels<
    Choose0fromEtoA,
    Choose0fromEtoB,
    Choose0fromEtoC,
    Send<(), Choose0fromEtoD>,
    RoleD<RoleBroadcast>,
    NameE,
>;

// Creating the MP sessions
type EndpointA = MeshedChannels<End, End, End, RecursAtoE, RoleE<RoleEnd>, NameA>;
type EndpointB = MeshedChannels<End, End, End, RecursBtoE, RoleE<RoleEnd>, NameB>;
type EndpointC = MeshedChannels<End, End, End, RecursCtoE, RoleE<RoleEnd>, NameC>;
type EndpointD = MeshedChannels<End, End, End, RecursDtoE, RoleE<RoleEnd>, NameD>;
type EndpointE = MeshedChannels<
    Choose0fromEtoA,
    Choose0fromEtoB,
    Choose0fromEtoC,
    Choose0fromEtoD,
    RoleBroadcast,
    NameE,
>;

fn endpoint_a(s: EndpointA) -> Result<(), Box<dyn Error>> {
    offer_mpst!(s, {
        Branching0fromEtoA::Done(s) => {
            s.close()
        },
        Branching0fromEtoA::Forward(s) => {
            let s = s.send(());
            endpoint_a(s)
        },
        Branching0fromEtoA::Backward(s) => {
            let (_, s) = s.recv();
            endpoint_a(s)
        },
    })
}

fn endpoint_b(s: EndpointB) -> Result<(), Box<dyn Error>> {
    offer_mpst!(s, {
        Branching0fromEtoB::Done(s) => {
            s.close()
        },
        Branching0fromEtoB::Forward(s) => {
            let ((), s) = s.recv();
            let s = s.send(());
            endpoint_b(s)
        },
        Branching0fromEtoB::Backward(s) => {
            let ((), s) = s.recv();
            let s = s.send(());
            endpoint_b(s)
        },
    })
}

fn endpoint_c(s: EndpointC) -> Result<(), Box<dyn Error>> {
    offer_mpst!(s, {
        Branching0fromEtoC::Done(s) => {
            s.close()
        },
        Branching0fromEtoC::Forward(s) => {
            let ((), s) = s.recv();
            let s = s.send(());
            endpoint_c(s)
        },
        Branching0fromEtoC::Backward(s) => {
            let ((), s) = s.recv();
            let s = s.send(());
            endpoint_c(s)
        },
    })
}

fn endpoint_d(s: EndpointD) -> Result<(), Box<dyn Error>> {
    offer_mpst!(s, {
        Branching0fromEtoD::Done(s) => {
            s.close()
        },
        Branching0fromEtoD::Forward(s) => {
            let ((), s) = s.recv();
            let s = s.send(());
            endpoint_d(s)
        },
        Branching0fromEtoD::Backward(s) => {
            let ((), s) = s.recv();
            let s = s.send(());
            endpoint_d(s)
        },
    })
}

fn endpoint_e(s: EndpointE) -> Result<(), Box<dyn Error>> {
    recurs_e(s, LOOPS)
}

fn recurs_e(s: EndpointE, index: i64) -> Result<(), Box<dyn Error>> {
    match index {
        0 => {
            let s = choose_mpst_e_to_all!(
                s,
                Branching0fromEtoA::Done,
                Branching0fromEtoB::Done,
                Branching0fromEtoC::Done,
                Branching0fromEtoD::Done
            );

            s.close()
        }
        i if i % 2 == 0 => {
            let s: EndpointForwardE = choose_mpst_e_to_all!(
                s,
                Branching0fromEtoA::Forward,
                Branching0fromEtoB::Forward,
                Branching0fromEtoC::Forward,
                Branching0fromEtoD::Forward
            );

            let (_, s) = s.recv();

            recurs_e(s, i - 1)
        }
        i => {
            let s: EndpointBackwardE = choose_mpst_e_to_all!(
                s,
                Branching0fromEtoA::Backward,
                Branching0fromEtoB::Backward,
                Branching0fromEtoC::Backward,
                Branching0fromEtoD::Backward
            );

            let s = s.send(());

            recurs_e(s, i - 1)
        }
    }
}

fn main() {
    let (thread_a, thread_b, thread_c, thread_d, thread_e) =
        fork_mpst(endpoint_a, endpoint_b, endpoint_c, endpoint_d, endpoint_e);

    thread_a.join().unwrap();
    thread_b.join().unwrap();
    thread_c.join().unwrap();
    thread_d.join().unwrap();
    thread_e.join().unwrap();
}