#![allow( clippy::type_complexity, clippy::too_many_arguments, clippy::large_enum_variant )] use mpstthree::binary::struct_trait::end::End; use mpstthree::binary_atmp::struct_trait::{recv::RecvTimed, send::SendTimed}; use mpstthree::generate_atmp; use mpstthree::role::broadcast::RoleBroadcast; use mpstthree::role::end::RoleEnd; use std::collections::HashMap; use std::error::Error; use std::time::Instant; static LOOPS: i64 = 100; // Create new roles generate_atmp!(MeshedChannels, A, B, C, D, E, F, G, H, I); // Types // A enum Branching0fromItoA { Forward( MeshedChannels< SendTimed<(), 'a', 0, true, 10, true, ' ', End>, End, End, End, End, End, End, RecursAtoI, RoleB>, NameA, >, ), Backward( MeshedChannels< RecvTimed<(), 'a', 0, true, 10, true, ' ', End>, End, End, End, End, End, End, RecursAtoI, RoleB>, NameA, >, ), Done(MeshedChannels), } type RecursAtoI = RecvTimed; // B enum Branching0fromItoB { Forward( MeshedChannels< RecvTimed<(), 'a', 0, true, 10, true, ' ', End>, SendTimed<(), 'a', 0, true, 10, true, ' ', End>, End, End, End, End, End, RecursBtoI, RoleA>>, NameB, >, ), Backward( MeshedChannels< SendTimed<(), 'a', 0, true, 10, true, ' ', End>, RecvTimed<(), 'a', 0, true, 10, true, ' ', End>, End, End, End, End, End, RecursBtoI, RoleC>>, NameB, >, ), Done(MeshedChannels), } type RecursBtoI = RecvTimed; // C enum Branching0fromItoC { Forward( MeshedChannels< End, RecvTimed<(), 'a', 0, true, 10, true, ' ', End>, SendTimed<(), 'a', 0, true, 10, true, ' ', End>, End, End, End, End, RecursCtoI, RoleB>>, NameC, >, ), Backward( MeshedChannels< End, SendTimed<(), 'a', 0, true, 10, true, ' ', End>, RecvTimed<(), 'a', 0, true, 10, true, ' ', End>, End, End, End, End, RecursCtoI, RoleD>>, NameC, >, ), Done(MeshedChannels), } type RecursCtoI = RecvTimed; // D enum Branching0fromItoD { Forward( MeshedChannels< End, End, RecvTimed<(), 'a', 0, true, 10, true, ' ', End>, SendTimed<(), 'a', 0, true, 10, true, ' ', End>, End, End, End, RecursDtoI, RoleC>>, NameD, >, ), Backward( MeshedChannels< End, End, SendTimed<(), 'a', 0, true, 10, true, ' ', End>, RecvTimed<(), 'a', 0, true, 10, true, ' ', End>, End, End, End, RecursDtoI, RoleE>>, NameD, >, ), Done(MeshedChannels), } type RecursDtoI = RecvTimed; // E enum Branching0fromItoE { Forward( MeshedChannels< End, End, End, RecvTimed<(), 'a', 0, true, 10, true, ' ', End>, SendTimed<(), 'a', 0, true, 10, true, ' ', End>, End, End, RecursEtoI, RoleD>>, NameE, >, ), Backward( MeshedChannels< End, End, End, SendTimed<(), 'a', 0, true, 10, true, ' ', End>, RecvTimed<(), 'a', 0, true, 10, true, ' ', End>, End, End, RecursEtoI, RoleF>>, NameE, >, ), Done(MeshedChannels), } type RecursEtoI = RecvTimed; // F enum Branching0fromItoF { Forward( MeshedChannels< End, End, End, End, RecvTimed<(), 'a', 0, true, 10, true, ' ', End>, SendTimed<(), 'a', 0, true, 10, true, ' ', End>, End, RecursFtoI, RoleE>>, NameF, >, ), Backward( MeshedChannels< End, End, End, End, SendTimed<(), 'a', 0, true, 10, true, ' ', End>, RecvTimed<(), 'a', 0, true, 10, true, ' ', End>, End, RecursFtoI, RoleG>>, NameF, >, ), Done(MeshedChannels), } type RecursFtoI = RecvTimed; // G enum Branching0fromItoG { Forward( MeshedChannels< End, End, End, End, End, RecvTimed<(), 'a', 0, true, 10, true, ' ', End>, SendTimed<(), 'a', 0, true, 10, true, ' ', End>, RecursGtoI, RoleF>>, NameG, >, ), Backward( MeshedChannels< End, End, End, End, End, SendTimed<(), 'a', 0, true, 10, true, ' ', End>, RecvTimed<(), 'a', 0, true, 10, true, ' ', End>, RecursGtoI, RoleH>>, NameG, >, ), Done(MeshedChannels), } type RecursGtoI = RecvTimed; // H enum Branching0fromItoH { Forward( MeshedChannels< End, End, End, End, End, End, RecvTimed<(), 'a', 0, true, 10, true, ' ', End>, SendTimed<(), 'a', 0, true, 10, true, ' ', RecursHtoI>, RoleG>>, NameH, >, ), Backward( MeshedChannels< End, End, End, End, End, End, SendTimed<(), 'a', 0, true, 10, true, ' ', End>, RecvTimed<(), 'a', 0, true, 10, true, ' ', RecursHtoI>, RoleI>>, NameH, >, ), Done(MeshedChannels), } type RecursHtoI = RecvTimed; // I type Choose0fromItoA = SendTimed; type Choose0fromItoB = SendTimed; type Choose0fromItoC = SendTimed; type Choose0fromItoD = SendTimed; type Choose0fromItoE = SendTimed; type Choose0fromItoF = SendTimed; type Choose0fromItoG = SendTimed; type Choose0fromItoH = SendTimed; type EndpointForwardI = MeshedChannels< Choose0fromItoA, Choose0fromItoB, Choose0fromItoC, Choose0fromItoD, Choose0fromItoE, Choose0fromItoF, Choose0fromItoG, RecvTimed<(), 'a', 0, true, 10, true, ' ', Choose0fromItoH>, RoleH, NameI, >; type EndpointBackwardI = MeshedChannels< Choose0fromItoA, Choose0fromItoB, Choose0fromItoC, Choose0fromItoD, Choose0fromItoE, Choose0fromItoF, Choose0fromItoG, SendTimed<(), 'a', 0, true, 10, true, ' ', Choose0fromItoH>, RoleH, NameI, >; // Creating the MP sessions type EndpointA = MeshedChannels, NameA>; type EndpointB = MeshedChannels, NameB>; type EndpointC = MeshedChannels, NameC>; type EndpointD = MeshedChannels, NameD>; type EndpointE = MeshedChannels, NameE>; type EndpointF = MeshedChannels, NameF>; type EndpointG = MeshedChannels, NameG>; type EndpointH = MeshedChannels, NameH>; type EndpointI = MeshedChannels< Choose0fromItoA, Choose0fromItoB, Choose0fromItoC, Choose0fromItoD, Choose0fromItoE, Choose0fromItoF, Choose0fromItoG, Choose0fromItoH, RoleBroadcast, NameI, >; fn endpoint_a(s: EndpointA, all_clocks: &mut HashMap) -> Result<(), Box> { all_clocks.insert('a', Instant::now()); offer_mpst!(s, all_clocks, { Branching0fromItoA::Done(s) => { s.close() }, Branching0fromItoA::Forward(s) => { let s = s.send((), all_clocks)?; endpoint_a(s, all_clocks) }, Branching0fromItoA::Backward(s) => { let (_, s) = s.recv(all_clocks)?; endpoint_a(s, all_clocks) }, }) } fn endpoint_b(s: EndpointB, all_clocks: &mut HashMap) -> Result<(), Box> { all_clocks.insert('a', Instant::now()); offer_mpst!(s, all_clocks, { Branching0fromItoB::Done(s) => { s.close() }, Branching0fromItoB::Forward(s) => { let ((), s) = s.recv(all_clocks)?; let s = s.send((), all_clocks)?; endpoint_b(s, all_clocks) }, Branching0fromItoB::Backward(s) => { let ((), s) = s.recv(all_clocks)?; let s = s.send((), all_clocks)?; endpoint_b(s, all_clocks) }, }) } fn endpoint_c(s: EndpointC, all_clocks: &mut HashMap) -> Result<(), Box> { all_clocks.insert('a', Instant::now()); offer_mpst!(s, all_clocks, { Branching0fromItoC::Done(s) => { s.close() }, Branching0fromItoC::Forward(s) => { let ((), s) = s.recv(all_clocks)?; let s = s.send((), all_clocks)?; endpoint_c(s, all_clocks) }, Branching0fromItoC::Backward(s) => { let ((), s) = s.recv(all_clocks)?; let s = s.send((), all_clocks)?; endpoint_c(s, all_clocks) }, }) } fn endpoint_d(s: EndpointD, all_clocks: &mut HashMap) -> Result<(), Box> { all_clocks.insert('a', Instant::now()); offer_mpst!(s, all_clocks, { Branching0fromItoD::Done(s) => { s.close() }, Branching0fromItoD::Forward(s) => { let ((), s) = s.recv(all_clocks)?; let s = s.send((), all_clocks)?; endpoint_d(s, all_clocks) }, Branching0fromItoD::Backward(s) => { let ((), s) = s.recv(all_clocks)?; let s = s.send((), all_clocks)?; endpoint_d(s, all_clocks) }, }) } fn endpoint_e(s: EndpointE, all_clocks: &mut HashMap) -> Result<(), Box> { all_clocks.insert('a', Instant::now()); offer_mpst!(s, all_clocks, { Branching0fromItoE::Done(s) => { s.close() }, Branching0fromItoE::Forward(s) => { let ((), s) = s.recv(all_clocks)?; let s = s.send((), all_clocks)?; endpoint_e(s, all_clocks) }, Branching0fromItoE::Backward(s) => { let ((), s) = s.recv(all_clocks)?; let s = s.send((), all_clocks)?; endpoint_e(s, all_clocks) }, }) } fn endpoint_f(s: EndpointF, all_clocks: &mut HashMap) -> Result<(), Box> { all_clocks.insert('a', Instant::now()); offer_mpst!(s, all_clocks, { Branching0fromItoF::Done(s) => { s.close() }, Branching0fromItoF::Forward(s) => { let ((), s) = s.recv(all_clocks)?; let s = s.send((), all_clocks)?; endpoint_f(s, all_clocks) }, Branching0fromItoF::Backward(s) => { let ((), s) = s.recv(all_clocks)?; let s = s.send((), all_clocks)?; endpoint_f(s, all_clocks) }, }) } fn endpoint_g(s: EndpointG, all_clocks: &mut HashMap) -> Result<(), Box> { all_clocks.insert('a', Instant::now()); offer_mpst!(s, all_clocks, { Branching0fromItoG::Done(s) => { s.close() }, Branching0fromItoG::Forward(s) => { let ((), s) = s.recv(all_clocks)?; let s = s.send((), all_clocks)?; endpoint_g(s, all_clocks) }, Branching0fromItoG::Backward(s) => { let ((), s) = s.recv(all_clocks)?; let s = s.send((), all_clocks)?; endpoint_g(s, all_clocks) }, }) } fn endpoint_h(s: EndpointH, all_clocks: &mut HashMap) -> Result<(), Box> { all_clocks.insert('a', Instant::now()); offer_mpst!(s, all_clocks, { Branching0fromItoH::Done(s) => { s.close() }, Branching0fromItoH::Forward(s) => { let ((), s) = s.recv(all_clocks)?; let s = s.send((), all_clocks)?; endpoint_h(s, all_clocks) }, Branching0fromItoH::Backward(s) => { let ((), s) = s.recv(all_clocks)?; let s = s.send((), all_clocks)?; endpoint_h(s, all_clocks) }, }) } fn endpoint_i(s: EndpointI, all_clocks: &mut HashMap) -> Result<(), Box> { all_clocks.insert('a', Instant::now()); recurs_i(s, LOOPS, all_clocks) } fn recurs_i( s: EndpointI, index: i64, all_clocks: &mut HashMap, ) -> Result<(), Box> { match index { 0 => { let s = choose_mpst_i_to_all!( s, all_clocks, Branching0fromItoA::Done, Branching0fromItoB::Done, Branching0fromItoC::Done, Branching0fromItoD::Done, Branching0fromItoE::Done, Branching0fromItoF::Done, Branching0fromItoG::Done, Branching0fromItoH::Done ); s.close() } i if i % 2 == 0 => { let s: EndpointForwardI = choose_mpst_i_to_all!( s, all_clocks, Branching0fromItoA::Forward, Branching0fromItoB::Forward, Branching0fromItoC::Forward, Branching0fromItoD::Forward, Branching0fromItoE::Forward, Branching0fromItoF::Forward, Branching0fromItoG::Forward, Branching0fromItoH::Forward ); let (_, s) = s.recv(all_clocks)?; recurs_i(s, i - 1, all_clocks) } i => { let s: EndpointBackwardI = choose_mpst_i_to_all!( s, all_clocks, Branching0fromItoA::Backward, Branching0fromItoB::Backward, Branching0fromItoC::Backward, Branching0fromItoD::Backward, Branching0fromItoE::Backward, Branching0fromItoF::Backward, Branching0fromItoG::Backward, Branching0fromItoH::Backward ); let s = s.send((), all_clocks)?; recurs_i(s, i - 1, all_clocks) } } } fn main() { let (thread_a, thread_b, thread_c, thread_d, thread_e, thread_f, thread_g, thread_h, thread_i) = fork_mpst( endpoint_a, endpoint_b, endpoint_c, endpoint_d, endpoint_e, endpoint_f, endpoint_g, endpoint_h, endpoint_i, ); thread_a.join().unwrap(); thread_b.join().unwrap(); thread_c.join().unwrap(); thread_d.join().unwrap(); thread_e.join().unwrap(); thread_f.join().unwrap(); thread_g.join().unwrap(); thread_h.join().unwrap(); thread_i.join().unwrap(); }