use crossbeam_channel::bounded;
use criterion::{black_box, Criterion};
use mpstthree::binary::close::close;
use mpstthree::binary::fork::fork_with_thread_id;
use mpstthree::binary::recv::recv;
use mpstthree::binary::send::send;
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_impl_with_enum_and_cancel, choose, offer};
use std::error::Error;
use std::thread::{spawn, JoinHandle};
bundle_impl_with_enum_and_cancel!(MeshedChannelsEleven, A, B, C, D, E, F, G, H, I, J, K);
type NameA = RoleA<RoleEnd>;
type NameB = RoleB<RoleEnd>;
type NameC = RoleC<RoleEnd>;
type NameD = RoleD<RoleEnd>;
type NameE = RoleE<RoleEnd>;
type NameF = RoleF<RoleEnd>;
type NameG = RoleG<RoleEnd>;
type NameH = RoleH<RoleEnd>;
type NameI = RoleI<RoleEnd>;
type NameJ = RoleJ<RoleEnd>;
type NameK = RoleK<RoleEnd>;
type RS = Recv<(), Send<(), End>>;
type SR = Send<(), Recv<(), End>>;
type R2A<R> = RoleA<RoleA<R>>;
type R2B<R> = RoleB<RoleB<R>>;
type R2C<R> = RoleC<RoleC<R>>;
type R2D<R> = RoleD<RoleD<R>>;
type R2E<R> = RoleE<RoleE<R>>;
type R2F<R> = RoleF<RoleF<R>>;
type R2G<R> = RoleG<RoleG<R>>;
type R2H<R> = RoleH<RoleH<R>>;
type R2I<R> = RoleI<RoleI<R>>;
type R2J<R> = RoleJ<RoleJ<R>>;
type R2K<R> = RoleK<RoleK<R>>;
enum Branching0fromKtoA {
More(
MeshedChannelsEleven<
RS,
RS,
RS,
RS,
RS,
RS,
RS,
RS,
RS,
Recv<(), Send<(), RecursAtoK>>,
R2K<R2B<R2C<R2D<R2E<R2F<R2G<R2H<R2I<R2J<RoleK<RoleEnd>>>>>>>>>>>,
NameA,
>,
),
Done(MeshedChannelsEleven<End, End, End, End, End, End, End, End, End, End, RoleEnd, NameA>),
}
type RecursAtoK = Recv<Branching0fromKtoA, End>;
enum Branching0fromKtoB {
More(
MeshedChannelsEleven<
SR,
RS,
RS,
RS,
RS,
RS,
RS,
RS,
RS,
Recv<(), Send<(), RecursBtoK>>,
R2K<R2A<R2C<R2D<R2E<R2F<R2G<R2H<R2I<R2J<RoleK<RoleEnd>>>>>>>>>>>,
NameB,
>,
),
Done(MeshedChannelsEleven<End, End, End, End, End, End, End, End, End, End, RoleEnd, NameB>),
}
type RecursBtoK = Recv<Branching0fromKtoB, End>;
enum Branching0fromKtoC {
More(
MeshedChannelsEleven<
SR,
SR,
RS,
RS,
RS,
RS,
RS,
RS,
RS,
Recv<(), Send<(), RecursCtoK>>,
R2K<R2A<R2B<R2D<R2E<R2F<R2G<R2H<R2I<R2J<RoleK<RoleEnd>>>>>>>>>>>,
NameC,
>,
),
Done(MeshedChannelsEleven<End, End, End, End, End, End, End, End, End, End, RoleEnd, NameC>),
}
type RecursCtoK = Recv<Branching0fromKtoC, End>;
enum Branching0fromKtoD {
More(
MeshedChannelsEleven<
SR,
SR,
SR,
RS,
RS,
RS,
RS,
RS,
RS,
Recv<(), Send<(), RecursDtoK>>,
R2K<R2A<R2B<R2C<R2E<R2F<R2G<R2H<R2I<R2J<RoleK<RoleEnd>>>>>>>>>>>,
NameD,
>,
),
Done(MeshedChannelsEleven<End, End, End, End, End, End, End, End, End, End, RoleEnd, NameD>),
}
type RecursDtoK = Recv<Branching0fromKtoD, End>;
enum Branching0fromKtoE {
More(
MeshedChannelsEleven<
SR,
SR,
SR,
SR,
RS,
RS,
RS,
RS,
RS,
Recv<(), Send<(), RecursEtoK>>,
R2K<R2A<R2B<R2C<R2D<R2F<R2G<R2H<R2I<R2J<RoleK<RoleEnd>>>>>>>>>>>,
NameE,
>,
),
Done(MeshedChannelsEleven<End, End, End, End, End, End, End, End, End, End, RoleEnd, NameE>),
}
type RecursEtoK = Recv<Branching0fromKtoE, End>;
enum Branching0fromKtoF {
More(
MeshedChannelsEleven<
SR,
SR,
SR,
SR,
SR,
RS,
RS,
RS,
RS,
Recv<(), Send<(), RecursFtoK>>,
R2K<R2A<R2B<R2C<R2D<R2E<R2G<R2H<R2I<R2J<RoleK<RoleEnd>>>>>>>>>>>,
NameF,
>,
),
Done(MeshedChannelsEleven<End, End, End, End, End, End, End, End, End, End, RoleEnd, NameF>),
}
type RecursFtoK = Recv<Branching0fromKtoF, End>;
enum Branching0fromKtoG {
More(
MeshedChannelsEleven<
SR,
SR,
SR,
SR,
SR,
SR,
RS,
RS,
RS,
Recv<(), Send<(), RecursGtoK>>,
R2K<R2A<R2B<R2C<R2D<R2E<R2F<R2H<R2I<R2J<RoleK<RoleEnd>>>>>>>>>>>,
NameG,
>,
),
Done(MeshedChannelsEleven<End, End, End, End, End, End, End, End, End, End, RoleEnd, NameG>),
}
type RecursGtoK = Recv<Branching0fromKtoG, End>;
enum Branching0fromKtoH {
More(
MeshedChannelsEleven<
SR,
SR,
SR,
SR,
SR,
SR,
SR,
RS,
RS,
Recv<(), Send<(), RecursHtoK>>,
R2K<R2A<R2B<R2C<R2D<R2E<R2F<R2G<R2I<R2J<RoleK<RoleEnd>>>>>>>>>>>,
NameH,
>,
),
Done(MeshedChannelsEleven<End, End, End, End, End, End, End, End, End, End, RoleEnd, NameH>),
}
type RecursHtoK = Recv<Branching0fromKtoH, End>;
enum Branching0fromKtoI {
More(
MeshedChannelsEleven<
SR,
SR,
SR,
SR,
SR,
SR,
SR,
SR,
RS,
Recv<(), Send<(), RecursItoK>>,
R2K<R2A<R2B<R2C<R2D<R2E<R2F<R2G<R2H<R2J<RoleK<RoleEnd>>>>>>>>>>>,
NameI,
>,
),
Done(MeshedChannelsEleven<End, End, End, End, End, End, End, End, End, End, RoleEnd, NameI>),
}
type RecursItoK = Recv<Branching0fromKtoI, End>;
enum Branching0fromKtoJ {
More(
MeshedChannelsEleven<
SR,
SR,
SR,
SR,
SR,
SR,
SR,
SR,
SR,
Recv<(), Send<(), RecursJtoK>>,
R2K<R2A<R2B<R2C<R2D<R2E<R2F<R2G<R2H<R2I<RoleK<RoleEnd>>>>>>>>>>>,
NameJ,
>,
),
Done(MeshedChannelsEleven<End, End, End, End, End, End, End, End, End, End, RoleEnd, NameJ>),
}
type RecursJtoK = Recv<Branching0fromKtoJ, End>;
type Choose0fromKtoA = Send<Branching0fromKtoA, End>;
type Choose0fromKtoB = Send<Branching0fromKtoB, End>;
type Choose0fromKtoC = Send<Branching0fromKtoC, End>;
type Choose0fromKtoD = Send<Branching0fromKtoD, End>;
type Choose0fromKtoE = Send<Branching0fromKtoE, End>;
type Choose0fromKtoF = Send<Branching0fromKtoF, End>;
type Choose0fromKtoG = Send<Branching0fromKtoG, End>;
type Choose0fromKtoH = Send<Branching0fromKtoH, End>;
type Choose0fromKtoI = Send<Branching0fromKtoI, End>;
type Choose0fromKtoJ = Send<Branching0fromKtoJ, End>;
type EndpointMoreK = MeshedChannelsEleven<
Send<(), Recv<(), Choose0fromKtoA>>,
Send<(), Recv<(), Choose0fromKtoB>>,
Send<(), Recv<(), Choose0fromKtoC>>,
Send<(), Recv<(), Choose0fromKtoD>>,
Send<(), Recv<(), Choose0fromKtoE>>,
Send<(), Recv<(), Choose0fromKtoF>>,
Send<(), Recv<(), Choose0fromKtoG>>,
Send<(), Recv<(), Choose0fromKtoH>>,
Send<(), Recv<(), Choose0fromKtoI>>,
Send<(), Recv<(), Choose0fromKtoJ>>,
R2A<R2B<R2C<R2D<R2E<R2F<R2G<R2H<R2I<R2J<RoleBroadcast>>>>>>>>>>,
NameK,
>;
type EndpointA = MeshedChannelsEleven<
End,
End,
End,
End,
End,
End,
End,
End,
End,
RecursAtoK,
RoleK<RoleEnd>,
NameA,
>;
type EndpointB = MeshedChannelsEleven<
End,
End,
End,
End,
End,
End,
End,
End,
End,
RecursBtoK,
RoleK<RoleEnd>,
NameB,
>;
type EndpointC = MeshedChannelsEleven<
End,
End,
End,
End,
End,
End,
End,
End,
End,
RecursCtoK,
RoleK<RoleEnd>,
NameC,
>;
type EndpointD = MeshedChannelsEleven<
End,
End,
End,
End,
End,
End,
End,
End,
End,
RecursDtoK,
RoleK<RoleEnd>,
NameD,
>;
type EndpointE = MeshedChannelsEleven<
End,
End,
End,
End,
End,
End,
End,
End,
End,
RecursEtoK,
RoleK<RoleEnd>,
NameE,
>;
type EndpointF = MeshedChannelsEleven<
End,
End,
End,
End,
End,
End,
End,
End,
End,
RecursFtoK,
RoleK<RoleEnd>,
NameF,
>;
type EndpointG = MeshedChannelsEleven<
End,
End,
End,
End,
End,
End,
End,
End,
End,
RecursGtoK,
RoleK<RoleEnd>,
NameG,
>;
type EndpointH = MeshedChannelsEleven<
End,
End,
End,
End,
End,
End,
End,
End,
End,
RecursHtoK,
RoleK<RoleEnd>,
NameH,
>;
type EndpointI = MeshedChannelsEleven<
End,
End,
End,
End,
End,
End,
End,
End,
End,
RecursItoK,
RoleK<RoleEnd>,
NameI,
>;
type EndpointJ = MeshedChannelsEleven<
End,
End,
End,
End,
End,
End,
End,
End,
End,
RecursJtoK,
RoleK<RoleEnd>,
NameJ,
>;
type EndpointK = MeshedChannelsEleven<
Choose0fromKtoA,
Choose0fromKtoB,
Choose0fromKtoC,
Choose0fromKtoD,
Choose0fromKtoE,
Choose0fromKtoF,
Choose0fromKtoG,
Choose0fromKtoH,
Choose0fromKtoI,
Choose0fromKtoJ,
RoleBroadcast,
NameK,
>;
#[inline]
fn endpoint_a(s: EndpointA) -> Result<(), Box<dyn Error>> {
offer_mpst!(s, {
Branching0fromKtoA::Done(s) => {
s.close()
},
Branching0fromKtoA::More(s) => {
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
endpoint_a(s)
},
})
}
#[inline]
fn endpoint_b(s: EndpointB) -> Result<(), Box<dyn Error>> {
offer_mpst!(s, {
Branching0fromKtoB::Done(s) => {
s.close()
},
Branching0fromKtoB::More(s) => {
let (_, s) = s.recv()?;
let s = s.send(())?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
endpoint_b(s)
},
})
}
#[inline]
fn endpoint_c(s: EndpointC) -> Result<(), Box<dyn Error>> {
offer_mpst!(s, {
Branching0fromKtoC::Done(s) => {
s.close()
},
Branching0fromKtoC::More(s) => {
let (_, s) = s.recv()?;
let s = s.send(())?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
endpoint_c(s)
},
})
}
#[inline]
fn endpoint_d(s: EndpointD) -> Result<(), Box<dyn Error>> {
offer_mpst!(s, {
Branching0fromKtoD::Done(s) => {
s.close()
},
Branching0fromKtoD::More(s) => {
let (_, s) = s.recv()?;
let s = s.send(())?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
endpoint_d(s)
},
})
}
#[inline]
fn endpoint_e(s: EndpointE) -> Result<(), Box<dyn Error>> {
offer_mpst!(s, {
Branching0fromKtoE::Done(s) => {
s.close()
},
Branching0fromKtoE::More(s) => {
let (_, s) = s.recv()?;
let s = s.send(())?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
endpoint_e(s)
},
})
}
#[inline]
fn endpoint_f(s: EndpointF) -> Result<(), Box<dyn Error>> {
offer_mpst!(s, {
Branching0fromKtoF::Done(s) => {
s.close()
},
Branching0fromKtoF::More(s) => {
let (_, s) = s.recv()?;
let s = s.send(())?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
endpoint_f(s)
},
})
}
#[inline]
fn endpoint_g(s: EndpointG) -> Result<(), Box<dyn Error>> {
offer_mpst!(s, {
Branching0fromKtoG::Done(s) => {
s.close()
},
Branching0fromKtoG::More(s) => {
let (_, s) = s.recv()?;
let s = s.send(())?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
endpoint_g(s)
},
})
}
#[inline]
fn endpoint_h(s: EndpointH) -> Result<(), Box<dyn Error>> {
offer_mpst!(s, {
Branching0fromKtoH::Done(s) => {
s.close()
},
Branching0fromKtoH::More(s) => {
let (_, s) = s.recv()?;
let s = s.send(())?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
endpoint_h(s)
},
})
}
#[inline]
fn endpoint_i(s: EndpointI) -> Result<(), Box<dyn Error>> {
offer_mpst!(s, {
Branching0fromKtoI::Done(s) => {
s.close()
},
Branching0fromKtoI::More(s) => {
let (_, s) = s.recv()?;
let s = s.send(())?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let (_, s) = s.recv()?;
let s = s.send(())?;
endpoint_i(s)
},
})
}
#[inline]
fn endpoint_j(s: EndpointJ) -> Result<(), Box<dyn Error>> {
offer_mpst!(s, {
Branching0fromKtoJ::Done(s) => {
s.close()
},
Branching0fromKtoJ::More(s) => {
let (_, s) = s.recv()?;
let s = s.send(())?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
endpoint_j(s)
},
})
}
#[inline]
fn endpoint_k(s: EndpointK) -> Result<(), Box<dyn Error>> {
let mut temp_s = s;
for _ in 1..LOOPS {
temp_s = recurs_k(temp_s)?;
}
let s = choose_mpst_k_to_all!(
temp_s,
Branching0fromKtoA::Done,
Branching0fromKtoB::Done,
Branching0fromKtoC::Done,
Branching0fromKtoD::Done,
Branching0fromKtoE::Done,
Branching0fromKtoF::Done,
Branching0fromKtoG::Done,
Branching0fromKtoH::Done,
Branching0fromKtoI::Done,
Branching0fromKtoJ::Done
);
s.close()
}
fn recurs_k(s: EndpointK) -> Result<EndpointK, Box<dyn Error>> {
let s: EndpointMoreK = choose_mpst_k_to_all!(
s,
Branching0fromKtoA::More,
Branching0fromKtoB::More,
Branching0fromKtoC::More,
Branching0fromKtoD::More,
Branching0fromKtoE::More,
Branching0fromKtoF::More,
Branching0fromKtoG::More,
Branching0fromKtoH::More,
Branching0fromKtoI::More,
Branching0fromKtoJ::More
);
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
let s = s.send(())?;
let (_, s) = s.recv()?;
Ok(s)
}
fn all_mpst() {
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(
black_box(endpoint_a),
black_box(endpoint_b),
black_box(endpoint_c),
black_box(endpoint_d),
black_box(endpoint_e),
black_box(endpoint_f),
black_box(endpoint_g),
black_box(endpoint_h),
black_box(endpoint_i),
black_box(endpoint_j),
black_box(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();
}
enum BinaryA {
More(Recv<(), Send<(), RecursA>>),
Done(End),
}
type RecursA = Recv<BinaryA, End>;
fn binary_a_to_b(s: RecursA) -> Result<(), Box<dyn Error>> {
offer!(s, {
BinaryA::Done(s) => {
close(s)
},
BinaryA::More(s) => {
let (_, s) = recv(s)?;
let s = send((), s);
binary_a_to_b(s)
},
})
}
type RecursB = <RecursA as Session>::Dual;
fn binary_b_to_a(s: Send<(), Recv<(), RecursB>>) -> Result<RecursB, Box<dyn Error>> {
let s = send((), s);
let (_, s) = recv(s)?;
Ok(s)
}
fn all_binaries() {
let mut threads = Vec::new();
let mut sessions = Vec::new();
for _ in 0..55 {
let (thread, s): (JoinHandle<()>, RecursB) = fork_with_thread_id(black_box(binary_a_to_b));
threads.push(thread);
sessions.push(s);
}
let main = spawn(move || {
for _ in 0..LOOPS {
sessions = sessions
.into_iter()
.map(|s| binary_b_to_a(choose!(BinaryA::More, s)).unwrap())
.collect::<Vec<_>>();
}
sessions
.into_iter()
.for_each(|s| close(choose!(BinaryA::Done, s)).unwrap());
threads.into_iter().for_each(|elt| elt.join().unwrap());
});
main.join().unwrap();
}
type ReceivingSendingReceiving = crossbeam_channel::Receiver<SendingReceiving>;
type SendingReceivingSending = crossbeam_channel::Sender<ReceivingSending>;
type SendingReceiving = crossbeam_channel::Sender<Receiving>;
type ReceivingSending = crossbeam_channel::Receiver<Sending>;
type Receiving = crossbeam_channel::Receiver<()>;
type Sending = crossbeam_channel::Sender<()>;
fn all_crossbeam() {
let mut threads = Vec::new();
for _ in 0..55 {
let main = spawn(move || {
for _ in 0..LOOPS {
let (sender_0, receiver_0) = bounded::<ReceivingSendingReceiving>(1);
let (sender_4, receiver_4) = bounded::<SendingReceivingSending>(1);
let (sender_1, receiver_1) = bounded::<SendingReceiving>(1);
let (sender_5, receiver_5) = bounded::<ReceivingSending>(1);
let (sender_2, receiver_2) = bounded::<Receiving>(1);
let (sender_6, receiver_6) = bounded::<Sending>(1);
let (sender_3, receiver_3) = bounded::<()>(1);
let (sender_7, receiver_7) = bounded::<()>(1);
sender_0.send(receiver_1).unwrap();
sender_4.send(sender_5).unwrap();
let receiver_1_bis = receiver_0.recv().unwrap();
let sender_5_bis = receiver_4.recv().unwrap();
sender_1.send(sender_2).unwrap();
sender_5_bis.send(receiver_6).unwrap();
let sender_2_bis = receiver_1_bis.recv().unwrap();
let receiver_6_bis = receiver_5.recv().unwrap();
sender_2_bis.send(receiver_3).unwrap();
sender_6.send(sender_7).unwrap();
let receiver_2_bis = receiver_2.recv().unwrap();
let sender_7_bis = receiver_6_bis.recv().unwrap();
sender_3.send(()).unwrap();
sender_7_bis.send(()).unwrap();
receiver_2_bis.recv().unwrap();
receiver_7.recv().unwrap();
}
let (sender_close_1, receiver_close_1) = bounded::<()>(1);
let (sender_close_2, receiver_close_2) = bounded::<()>(1);
sender_close_1.send(()).unwrap_or(());
sender_close_2.send(()).unwrap_or(());
receiver_close_1.recv().unwrap_or(());
receiver_close_2.recv().unwrap_or(());
});
threads.push(main);
}
threads.into_iter().for_each(|elt| elt.join().unwrap());
}
static LOOPS: i64 = 100;
pub fn mesh_protocol_mpst(c: &mut Criterion) {
c.bench_function(
&format!("mesh eleven baking inline protocol MPST {}", LOOPS),
|b| b.iter(all_mpst),
);
}
pub fn mesh_protocol_binary(c: &mut Criterion) {
c.bench_function(
&format!("mesh eleven baking inline protocol binary {}", LOOPS),
|b| b.iter(all_binaries),
);
}
pub fn mesh_protocol_crossbeam(c: &mut Criterion) {
c.bench_function(
&format!("mesh eleven baking inline protocol crossbeam {}", LOOPS),
|b| b.iter(all_crossbeam),
);
}