use crate::{Dummy, Fake, Faker};
use rand::Rng;
macro_rules! tuple_impl {
($(
$Tuple:ident {
$(($idx:tt) $U:ident -> $T:ident)+
}
)+) => {
$(
impl<$($T:Dummy<Faker>),+> Dummy<Faker> for ($($T,)+) {
#[inline]
fn dummy_with_rng<R: Rng + ?Sized>(config: &Faker, rng: &mut R) -> Self {
($({ let x: $T = config.fake_with_rng(rng); x},)+)
}
}
impl<$($U, $T:Dummy<$U>),+> Dummy<($($U,)+)> for ($($T,)+) {
#[inline]
fn dummy_with_rng<R: Rng + ?Sized>(config: &($($U,)+), rng: &mut R) -> Self {
($({ let x: $T = config.$idx.fake_with_rng(rng); x},)+)
}
}
)+
}
}
tuple_impl! {
Tuple1 {
(0) T0 -> A
}
Tuple2 {
(0) T0 -> A
(1) T1 -> B
}
Tuple3 {
(0) T0 -> A
(1) T1 -> B
(2) T2 -> C
}
Tuple4 {
(0) T0 -> A
(1) T1 -> B
(2) T2 -> C
(3) T3 -> D
}
Tuple5 {
(0) T0 -> A
(1) T1 -> B
(2) T2 -> C
(3) T3 -> D
(4) T4 -> E
}
Tuple6 {
(0) T0 -> A
(1) T1 -> B
(2) T2 -> C
(3) T3 -> D
(4) T4 -> E
(5) T5 -> F
}
Tuple7 {
(0) T0 -> A
(1) T1 -> B
(2) T2 -> C
(3) T3 -> D
(4) T4 -> E
(5) T5 -> F
(6) T6 -> G
}
Tuple8 {
(0) T0 -> A
(1) T1 -> B
(2) T2 -> C
(3) T3 -> D
(4) T4 -> E
(5) T5 -> F
(6) T6 -> G
(7) T7 -> H
}
Tuple9 {
(0) T0 -> A
(1) T1 -> B
(2) T2 -> C
(3) T3 -> D
(4) T4 -> E
(5) T5 -> F
(6) T6 -> G
(7) T7 -> H
(8) T8 -> I
}
Tuple10 {
(0) T0 -> A
(1) T1 -> B
(2) T2 -> C
(3) T3 -> D
(4) T4 -> E
(5) T5 -> F
(6) T6 -> G
(7) T7 -> H
(8) T8 -> I
(9) T9 -> J
}
Tuple11 {
(0) T0 -> A
(1) T1 -> B
(2) T2 -> C
(3) T3 -> D
(4) T4 -> E
(5) T5 -> F
(6) T6 -> G
(7) T7 -> H
(8) T8 -> I
(9) T9 -> J
(10) T10 -> K
}
Tuple12 {
(0) T0 -> A
(1) T1 -> B
(2) T2 -> C
(3) T3 -> D
(4) T4 -> E
(5) T5 -> F
(6) T6 -> G
(7) T7 -> H
(8) T8 -> I
(9) T9 -> J
(10) T10 -> K
(11) T11 -> L
}
}