#![allow(clippy::type_complexity, clippy::too_many_arguments, clippy::large_enum_variant)] use mpstthree::binary::struct_trait::{end::End, recv::Recv, send::Send, session::Session}; use mpstthree::role::broadcast::RoleBroadcast; use mpstthree::role::end::RoleEnd; use mpstthree::{ bundle_struct_fork_close_multi_cancel, create_fn_choose_mpst_multi_to_all_bundle, create_multiple_normal_role_short, create_recv_mpst_session_bundle, create_send_mpst_cancel_bundle, offer_mpst, create_multiple_normal_name_short }; use std::error::Error; // Create the new MeshedChannels for eleven participants and the close and fork functions bundle_struct_fork_close_multi_cancel!(close_mpst_multi, fork_mpst, MeshedChannels, 11); // Create new roles // normal create_multiple_normal_role_short!(A, B, C, D, E, F, G, H, I, J, K); // Create new names create_multiple_normal_name_short!(A, B, C, D, E, F, G, H, I, J, K); // Create new send functions // A create_send_mpst_cancel_bundle!( send_mpst_a_to_b, RoleB, 1 | => NameA, MeshedChannels, 11 ); // B create_send_mpst_cancel_bundle!( send_mpst_b_to_a, RoleA, 1 | send_mpst_b_to_c, RoleC, 2 | => NameB, MeshedChannels, 11 ); // C create_send_mpst_cancel_bundle!( send_mpst_c_to_b, RoleB, 2 | send_mpst_c_to_d, RoleD, 3 | => NameC, MeshedChannels, 11 ); // D create_send_mpst_cancel_bundle!( send_mpst_d_to_c, RoleC, 3 | send_mpst_d_to_e, RoleE, 4 | => NameD, MeshedChannels, 11 ); // E create_send_mpst_cancel_bundle!( send_mpst_e_to_d, RoleD, 4 | send_mpst_e_to_f, RoleF, 5 | => NameE, MeshedChannels, 11 ); // F create_send_mpst_cancel_bundle!( send_mpst_f_to_e, RoleE, 5 | send_mpst_f_to_g, RoleG, 6 | => NameF, MeshedChannels, 11 ); // G create_send_mpst_cancel_bundle!( send_mpst_g_to_f, RoleF, 6 | send_mpst_g_to_h, RoleH, 7 | => NameG, MeshedChannels, 11 ); // H create_send_mpst_cancel_bundle!( send_mpst_h_to_g, RoleG, 7 | send_mpst_h_to_i, RoleI, 8 | => NameH, MeshedChannels, 11 ); // I create_send_mpst_cancel_bundle!( send_mpst_i_to_h, RoleH, 8 | send_mpst_i_to_j, RoleJ, 9 | => NameI, MeshedChannels, 11 ); // J create_send_mpst_cancel_bundle!( send_mpst_j_to_i, RoleI, 9 | send_mpst_j_to_k, RoleK, 10 | => NameJ, MeshedChannels, 11 ); // K create_send_mpst_cancel_bundle!( send_mpst_k_to_j, RoleJ, 10 | => NameK, MeshedChannels, 11 ); // Create new recv functions and related types // A create_recv_mpst_session_bundle!( recv_mpst_a_from_b, RoleB, 1 | recv_mpst_a_from_k, RoleK, 10 | => NameA, MeshedChannels, 11 ); // B create_recv_mpst_session_bundle!( recv_mpst_b_from_a, RoleA, 1 | recv_mpst_b_from_c, RoleC, 2 | recv_mpst_b_from_k, RoleK, 10 | => NameB, MeshedChannels, 11 ); // C create_recv_mpst_session_bundle!( recv_mpst_c_from_b, RoleB, 2 | recv_mpst_c_from_d, RoleD, 3 | recv_mpst_c_from_k, RoleK, 10 | => NameC, MeshedChannels, 11 ); // D create_recv_mpst_session_bundle!( recv_mpst_d_from_c, RoleC, 3 | recv_mpst_d_from_e, RoleE, 4 | recv_mpst_d_from_k, RoleK, 10 | => NameD, MeshedChannels, 11 ); // E create_recv_mpst_session_bundle!( recv_mpst_e_from_d, RoleD, 4 | recv_mpst_e_from_f, RoleF, 5 | recv_mpst_e_from_k, RoleK, 10 | => NameE, MeshedChannels, 11 ); // F create_recv_mpst_session_bundle!( recv_mpst_f_from_e, RoleE, 5 | recv_mpst_f_from_g, RoleG, 6 | recv_mpst_f_from_k, RoleK, 10 | => NameF, MeshedChannels, 11 ); // G create_recv_mpst_session_bundle!( recv_mpst_g_from_f, RoleF, 6 | recv_mpst_g_from_h, RoleH, 7 | recv_mpst_g_from_k, RoleK, 10 | => NameG, MeshedChannels, 11 ); // H create_recv_mpst_session_bundle!( recv_mpst_h_from_g, RoleG, 7 | recv_mpst_h_from_i, RoleI, 8 | recv_mpst_h_from_k, RoleK, 10 | => NameH, MeshedChannels, 11 ); // I create_recv_mpst_session_bundle!( recv_mpst_i_from_h, RoleH, 8 | recv_mpst_i_from_j, RoleJ, 9 | recv_mpst_i_from_k, RoleK, 10 | => NameI, MeshedChannels, 11 ); // J create_recv_mpst_session_bundle!( recv_mpst_j_from_i, RoleI, 9 | recv_mpst_j_from_k, RoleK, 10 | => NameJ, MeshedChannels, 11 ); // K create_recv_mpst_session_bundle!( recv_mpst_k_from_j, RoleJ, 10 | => NameK, MeshedChannels, 11 ); // Types // A enum Branching0fromKtoA { Forward( MeshedChannels< Send<(), End>, End, End, End, End, End, End, End, End, RecursAtoK, RoleB>, NameA, >, ), Backward( MeshedChannels< Recv<(), End>, End, End, End, End, End, End, End, End, RecursAtoK, RoleB>, NameA, >, ), Done(MeshedChannels), } type RecursAtoK = ::Dual; // B enum Branching0fromKtoB { Forward( MeshedChannels< Recv<(), End>, Send<(), End>, End, End, End, End, End, End, End, RecursBtoK, RoleA>>, NameB, >, ), Backward( MeshedChannels< Send<(), End>, Recv<(), End>, End, End, End, End, End, End, End, RecursBtoK, RoleC>>, NameB, >, ), Done(MeshedChannels), } type RecursBtoK = ::Dual; // C enum Branching0fromKtoC { Forward( MeshedChannels< End, Recv<(), End>, Send<(), End>, End, End, End, End, End, End, RecursCtoK, RoleB>>, NameC, >, ), Backward( MeshedChannels< End, Send<(), End>, Recv<(), End>, End, End, End, End, End, End, RecursCtoK, RoleD>>, NameC, >, ), Done(MeshedChannels), } type RecursCtoK = ::Dual; // D enum Branching0fromKtoD { Forward( MeshedChannels< End, End, Recv<(), End>, Send<(), End>, End, End, End, End, End, RecursDtoK, RoleC>>, NameD, >, ), Backward( MeshedChannels< End, End, Send<(), End>, Recv<(), End>, End, End, End, End, End, RecursDtoK, RoleE>>, NameD, >, ), Done(MeshedChannels), } type RecursDtoK = ::Dual; // E enum Branching0fromKtoE { Forward( MeshedChannels< End, End, End, Recv<(), End>, Send<(), End>, End, End, End, End, RecursEtoK, RoleD>>, NameE, >, ), Backward( MeshedChannels< End, End, End, Send<(), End>, Recv<(), End>, End, End, End, End, RecursEtoK, RoleF>>, NameE, >, ), Done(MeshedChannels), } type RecursEtoK = ::Dual; // F enum Branching0fromKtoF { Forward( MeshedChannels< End, End, End, End, Recv<(), End>, Send<(), End>, End, End, End, RecursFtoK, RoleE>>, NameF, >, ), Backward( MeshedChannels< End, End, End, End, Send<(), End>, Recv<(), End>, End, End, End, RecursFtoK, RoleG>>, NameF, >, ), Done(MeshedChannels), } type RecursFtoK = ::Dual; // G enum Branching0fromKtoG { Forward( MeshedChannels< End, End, End, End, End, Recv<(), End>, Send<(), End>, End, End, RecursGtoK, RoleF>>, NameG, >, ), Backward( MeshedChannels< End, End, End, End, End, Send<(), End>, Recv<(), End>, End, End, RecursGtoK, RoleH>>, NameG, >, ), Done(MeshedChannels), } type RecursGtoK = ::Dual; // H enum Branching0fromKtoH { Forward( MeshedChannels< End, End, End, End, End, End, Recv<(), End>, Send<(), End>, End, RecursHtoK, RoleG>>, NameH, >, ), Backward( MeshedChannels< End, End, End, End, End, End, Send<(), End>, Recv<(), End>, End, RecursHtoK, RoleI>>, NameH, >, ), Done(MeshedChannels), } type RecursHtoK = ::Dual; // I enum Branching0fromKtoI { Forward( MeshedChannels< End, End, End, End, End, End, End, Recv<(), End>, Send<(), End>, RecursItoK, RoleH>>, NameI, >, ), Backward( MeshedChannels< End, End, End, End, End, End, End, Send<(), End>, Recv<(), End>, RecursItoK, RoleJ>>, NameI, >, ), Done(MeshedChannels), } type RecursItoK = ::Dual; // J enum Branching0fromKtoJ { Forward( MeshedChannels< End, End, End, End, End, End, End, End, Recv<(), End>, Send<(), RecursJtoK>, RoleI>>, NameJ, >, ), Backward( MeshedChannels< End, End, End, End, End, End, End, End, Send<(), End>, Recv<(), RecursJtoK>, RoleK>>, NameJ, >, ), Done(MeshedChannels), } type RecursJtoK = ::Dual; // K type Choose0fromKtoA = Send; type Choose0fromKtoB = Send; type Choose0fromKtoC = Send; type Choose0fromKtoD = Send; type Choose0fromKtoE = Send; type Choose0fromKtoF = Send; type Choose0fromKtoG = Send; type Choose0fromKtoH = Send; type Choose0fromKtoI = Send; type Choose0fromKtoJ = Send; type EndpointDoneK = MeshedChannels; type EndpointForwardK = MeshedChannels< Choose0fromKtoA, Choose0fromKtoB, Choose0fromKtoC, Choose0fromKtoD, Choose0fromKtoE, Choose0fromKtoF, Choose0fromKtoG, Choose0fromKtoH, Choose0fromKtoI, Recv<(), Choose0fromKtoJ>, RoleJ, NameK, >; type EndpointBackwardK = MeshedChannels< Choose0fromKtoA, Choose0fromKtoB, Choose0fromKtoC, Choose0fromKtoD, Choose0fromKtoE, Choose0fromKtoF, Choose0fromKtoG, Choose0fromKtoH, Choose0fromKtoI, Send<(), Choose0fromKtoJ>, RoleJ, NameK, >; // Creating the MP sessions type EndpointA = MeshedChannels< End, End, End, End, End, End, End, End, End, RecursAtoK, RoleK, NameA, >; type EndpointB = MeshedChannels< End, End, End, End, End, End, End, End, End, RecursBtoK, RoleK, NameB, >; type EndpointC = MeshedChannels< End, End, End, End, End, End, End, End, End, RecursCtoK, RoleK, NameC, >; type EndpointD = MeshedChannels< End, End, End, End, End, End, End, End, End, RecursDtoK, RoleK, NameD, >; type EndpointE = MeshedChannels< End, End, End, End, End, End, End, End, End, RecursEtoK, RoleK, NameE, >; type EndpointF = MeshedChannels< End, End, End, End, End, End, End, End, End, RecursFtoK, RoleK, NameF, >; type EndpointG = MeshedChannels< End, End, End, End, End, End, End, End, End, RecursGtoK, RoleK, NameG, >; type EndpointH = MeshedChannels< End, End, End, End, End, End, End, End, End, RecursHtoK, RoleK, NameH, >; type EndpointI = MeshedChannels< End, End, End, End, End, End, End, End, End, RecursItoK, RoleK, NameI, >; type EndpointJ = MeshedChannels< End, End, End, End, End, End, End, End, End, RecursJtoK, RoleK, NameJ, >; type EndpointK = MeshedChannels< Choose0fromKtoA, Choose0fromKtoB, Choose0fromKtoC, Choose0fromKtoD, Choose0fromKtoE, Choose0fromKtoF, Choose0fromKtoG, Choose0fromKtoH, Choose0fromKtoI, Choose0fromKtoJ, RoleBroadcast, NameK, >; create_fn_choose_mpst_multi_to_all_bundle!( done_from_k_to_all, forward_from_k_to_all, backward_from_k_to_all, => Done, Forward, Backward, => EndpointDoneK, EndpointForwardK, EndpointBackwardK, => Branching0fromKtoA, Branching0fromKtoB, Branching0fromKtoC, Branching0fromKtoD, Branching0fromKtoE, Branching0fromKtoF, Branching0fromKtoG, Branching0fromKtoH, Branching0fromKtoI, Branching0fromKtoJ, => NameA, NameB, NameC, NameD, NameE, NameF, NameG, NameH, NameI, NameJ, => NameK, MeshedChannels, 11 ); fn endpoint_a(s: EndpointA) -> Result<(), Box> { offer_mpst!(s, recv_mpst_a_from_k, { Branching0fromKtoA::Done(s) => { close_mpst_multi(s) }, Branching0fromKtoA::Forward(s) => { let s = send_mpst_a_to_b((), s)?; endpoint_a(s) }, Branching0fromKtoA::Backward(s) => { let (_, s) = recv_mpst_a_from_b(s)?; endpoint_a(s) }, }) } fn endpoint_b(s: EndpointB) -> Result<(), Box> { offer_mpst!(s, recv_mpst_b_from_k, { Branching0fromKtoB::Done(s) => { close_mpst_multi(s) }, Branching0fromKtoB::Forward(s) => { let ((), s) = recv_mpst_b_from_a(s)?; let s = send_mpst_b_to_c((), s)?; endpoint_b(s) }, Branching0fromKtoB::Backward(s) => { let ((), s) = recv_mpst_b_from_c(s)?; let s = send_mpst_b_to_a((), s)?; endpoint_b(s) }, }) } fn endpoint_c(s: EndpointC) -> Result<(), Box> { offer_mpst!(s, recv_mpst_c_from_k, { Branching0fromKtoC::Done(s) => { close_mpst_multi(s) }, Branching0fromKtoC::Forward(s) => { let ((), s) = recv_mpst_c_from_b(s)?; let s = send_mpst_c_to_d((), s)?; endpoint_c(s) }, Branching0fromKtoC::Backward(s) => { let ((), s) = recv_mpst_c_from_d(s)?; let s = send_mpst_c_to_b((), s)?; endpoint_c(s) }, }) } fn endpoint_d(s: EndpointD) -> Result<(), Box> { offer_mpst!(s, recv_mpst_d_from_k, { Branching0fromKtoD::Done(s) => { close_mpst_multi(s) }, Branching0fromKtoD::Forward(s) => { let ((), s) = recv_mpst_d_from_c(s)?; let s = send_mpst_d_to_e((), s)?; endpoint_d(s) }, Branching0fromKtoD::Backward(s) => { let ((), s) = recv_mpst_d_from_e(s)?; let s = send_mpst_d_to_c((), s)?; endpoint_d(s) }, }) } fn endpoint_e(s: EndpointE) -> Result<(), Box> { offer_mpst!(s, recv_mpst_e_from_k, { Branching0fromKtoE::Done(s) => { close_mpst_multi(s) }, Branching0fromKtoE::Forward(s) => { let ((), s) = recv_mpst_e_from_d(s)?; let s = send_mpst_e_to_f((), s)?; endpoint_e(s) }, Branching0fromKtoE::Backward(s) => { let ((), s) = recv_mpst_e_from_f(s)?; let s = send_mpst_e_to_d((), s)?; endpoint_e(s) }, }) } fn endpoint_f(s: EndpointF) -> Result<(), Box> { offer_mpst!(s, recv_mpst_f_from_k, { Branching0fromKtoF::Done(s) => { close_mpst_multi(s) }, Branching0fromKtoF::Forward(s) => { let ((), s) = recv_mpst_f_from_e(s)?; let s = send_mpst_f_to_g((), s)?; endpoint_f(s) }, Branching0fromKtoF::Backward(s) => { let ((), s) = recv_mpst_f_from_g(s)?; let s = send_mpst_f_to_e((), s)?; endpoint_f(s) }, }) } fn endpoint_g(s: EndpointG) -> Result<(), Box> { offer_mpst!(s, recv_mpst_g_from_k, { Branching0fromKtoG::Done(s) => { close_mpst_multi(s) }, Branching0fromKtoG::Forward(s) => { let ((), s) = recv_mpst_g_from_f(s)?; let s = send_mpst_g_to_h((), s)?; endpoint_g(s) }, Branching0fromKtoG::Backward(s) => { let ((), s) = recv_mpst_g_from_h(s)?; let s = send_mpst_g_to_f((), s)?; endpoint_g(s) }, }) } fn endpoint_h(s: EndpointH) -> Result<(), Box> { offer_mpst!(s, recv_mpst_h_from_k, { Branching0fromKtoH::Done(s) => { close_mpst_multi(s) }, Branching0fromKtoH::Forward(s) => { let ((), s) = recv_mpst_h_from_g(s)?; let s = send_mpst_h_to_i((), s)?; endpoint_h(s) }, Branching0fromKtoH::Backward(s) => { let ((), s) = recv_mpst_h_from_i(s)?; let s = send_mpst_h_to_g((), s)?; endpoint_h(s) }, }) } fn endpoint_i(s: EndpointI) -> Result<(), Box> { offer_mpst!(s, recv_mpst_i_from_k, { Branching0fromKtoI::Done(s) => { close_mpst_multi(s) }, Branching0fromKtoI::Forward(s) => { let ((), s) = recv_mpst_i_from_h(s)?; let s = send_mpst_i_to_j((), s)?; endpoint_i(s) }, Branching0fromKtoI::Backward(s) => { let ((), s) = recv_mpst_i_from_j(s)?; let s = send_mpst_i_to_h((), s)?; endpoint_i(s) }, }) } fn endpoint_j(s: EndpointJ) -> Result<(), Box> { offer_mpst!(s, recv_mpst_j_from_k, { Branching0fromKtoJ::Done(s) => { close_mpst_multi(s) }, Branching0fromKtoJ::Forward(s) => { let ((), s) = recv_mpst_j_from_i(s)?; let s = send_mpst_j_to_k((), s)?; endpoint_j(s) }, Branching0fromKtoJ::Backward(s) => { let ((), s) = recv_mpst_j_from_k(s)?; let s = send_mpst_j_to_i((), s)?; endpoint_j(s) }, }) } fn endpoint_k(s: EndpointK) -> Result<(), Box> { recurs_k(s, 100) } fn recurs_k(s: EndpointK, index: i64) -> Result<(), Box> { match index { 0 => { let s = done_from_k_to_all(s); close_mpst_multi(s) } i if i % 2 == 0 => { let s = forward_from_k_to_all(s); let (_, s) = recv_mpst_k_from_j(s)?; recurs_k(s, i - 1) } i => { let s = backward_from_k_to_all(s); let s = send_mpst_k_to_j((), s)?; recurs_k(s, i - 1) } } } fn main() { let ( thread_a, thread_b, thread_c, thread_d, thread_e, thread_f, thread_g, thread_h, thread_i, thread_j, thread_k, ) = fork_mpst( endpoint_a, endpoint_b, endpoint_c, endpoint_d, endpoint_e, endpoint_f, endpoint_g, endpoint_h, endpoint_i, endpoint_j, endpoint_k, ); 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(); thread_j.join().unwrap(); thread_k.join().unwrap(); }