use stats::Distribution;
pub trait Tuple: Sized {
type Distributions: TupledDistributions<Item = Self>;
type Builder: TupledDistributionsBuilder<Item = Self>;
}
pub trait TupledDistributions: Sized {
type Item: Tuple<Distributions = Self>;
}
pub trait TupledDistributionsBuilder: Sized {
type Item: Tuple<Builder = Self>;
fn new(size: usize) -> Self;
fn push(&mut self, tuple: Self::Item);
fn extend(&mut self, other: &mut Self);
fn complete(self) -> <Self::Item as Tuple>::Distributions;
}
impl<A> Tuple for (A,)
where
A: Copy,
{
type Distributions = (Distribution<A>,);
type Builder = (Vec<A>,);
}
impl<A> TupledDistributions for (Distribution<A>,)
where
A: Copy,
{
type Item = (A,);
}
impl<A> TupledDistributionsBuilder for (Vec<A>,)
where
A: Copy,
{
type Item = (A,);
fn new(size: usize) -> (Vec<A>,) {
(Vec::with_capacity(size),)
}
fn push(&mut self, tuple: (A,)) {
(self.0).push(tuple.0);
}
fn extend(&mut self, other: &mut (Vec<A>,)) {
(self.0).append(&mut other.0);
}
fn complete(self) -> (Distribution<A>,) {
(Distribution(self.0.into_boxed_slice()),)
}
}
impl<A, B> Tuple for (A, B)
where
A: Copy,
B: Copy,
{
type Distributions = (Distribution<A>, Distribution<B>);
type Builder = (Vec<A>, Vec<B>);
}
impl<A, B> TupledDistributions for (Distribution<A>, Distribution<B>)
where
A: Copy,
B: Copy,
{
type Item = (A, B);
}
impl<A, B> TupledDistributionsBuilder for (Vec<A>, Vec<B>)
where
A: Copy,
B: Copy,
{
type Item = (A, B);
fn new(size: usize) -> (Vec<A>, Vec<B>) {
(Vec::with_capacity(size), Vec::with_capacity(size))
}
fn push(&mut self, tuple: (A, B)) {
(self.0).push(tuple.0);
(self.1).push(tuple.1);
}
fn extend(&mut self, other: &mut (Vec<A>, Vec<B>)) {
(self.0).append(&mut other.0);
(self.1).append(&mut other.1);
}
fn complete(self) -> (Distribution<A>, Distribution<B>) {
(
Distribution(self.0.into_boxed_slice()),
Distribution(self.1.into_boxed_slice()),
)
}
}
impl<A, B, C> Tuple for (A, B, C)
where
A: Copy,
B: Copy,
C: Copy,
{
type Distributions = (Distribution<A>, Distribution<B>, Distribution<C>);
type Builder = (Vec<A>, Vec<B>, Vec<C>);
}
impl<A, B, C> TupledDistributions for (Distribution<A>, Distribution<B>, Distribution<C>)
where
A: Copy,
B: Copy,
C: Copy,
{
type Item = (A, B, C);
}
impl<A, B, C> TupledDistributionsBuilder for (Vec<A>, Vec<B>, Vec<C>)
where
A: Copy,
B: Copy,
C: Copy,
{
type Item = (A, B, C);
fn new(size: usize) -> (Vec<A>, Vec<B>, Vec<C>) {
(
Vec::with_capacity(size),
Vec::with_capacity(size),
Vec::with_capacity(size),
)
}
fn push(&mut self, tuple: (A, B, C)) {
(self.0).push(tuple.0);
(self.1).push(tuple.1);
(self.2).push(tuple.2);
}
fn extend(&mut self, other: &mut (Vec<A>, Vec<B>, Vec<C>)) {
(self.0).append(&mut other.0);
(self.1).append(&mut other.1);
(self.2).append(&mut other.2);
}
fn complete(self) -> (Distribution<A>, Distribution<B>, Distribution<C>) {
(
Distribution(self.0.into_boxed_slice()),
Distribution(self.1.into_boxed_slice()),
Distribution(self.2.into_boxed_slice()),
)
}
}
impl<A, B, C, D> Tuple for (A, B, C, D)
where
A: Copy,
B: Copy,
C: Copy,
D: Copy,
{
type Distributions = (
Distribution<A>,
Distribution<B>,
Distribution<C>,
Distribution<D>,
);
type Builder = (Vec<A>, Vec<B>, Vec<C>, Vec<D>);
}
impl<A, B, C, D> TupledDistributions
for (
Distribution<A>,
Distribution<B>,
Distribution<C>,
Distribution<D>,
)
where
A: Copy,
B: Copy,
C: Copy,
D: Copy,
{
type Item = (A, B, C, D);
}
impl<A, B, C, D> TupledDistributionsBuilder for (Vec<A>, Vec<B>, Vec<C>, Vec<D>)
where
A: Copy,
B: Copy,
C: Copy,
D: Copy,
{
type Item = (A, B, C, D);
fn new(size: usize) -> (Vec<A>, Vec<B>, Vec<C>, Vec<D>) {
(
Vec::with_capacity(size),
Vec::with_capacity(size),
Vec::with_capacity(size),
Vec::with_capacity(size),
)
}
fn push(&mut self, tuple: (A, B, C, D)) {
(self.0).push(tuple.0);
(self.1).push(tuple.1);
(self.2).push(tuple.2);
(self.3).push(tuple.3);
}
fn extend(&mut self, other: &mut (Vec<A>, Vec<B>, Vec<C>, Vec<D>)) {
(self.0).append(&mut other.0);
(self.1).append(&mut other.1);
(self.2).append(&mut other.2);
(self.3).append(&mut other.3);
}
fn complete(
self,
) -> (
Distribution<A>,
Distribution<B>,
Distribution<C>,
Distribution<D>,
) {
(
Distribution(self.0.into_boxed_slice()),
Distribution(self.1.into_boxed_slice()),
Distribution(self.2.into_boxed_slice()),
Distribution(self.3.into_boxed_slice()),
)
}
}