Class Partition<A,B,C>

java.lang.Object
com.jnape.palatable.lambda.functions.builtin.fn2.Partition<A,B,C>
Type Parameters:
A - A type contravariant to the input Iterable element type
B - The output left Iterable element type, as well as the CoProduct2 A type
C - The output right Iterable element type, as well as the CoProduct2 B type
All Implemented Interfaces:
Fn1<Fn1<? super A,? extends CoProduct2<B,C,?>>,Fn1<Iterable<A>,Tuple2<Iterable<B>,Iterable<C>>>>, Fn2<Fn1<? super A,? extends CoProduct2<B,C,?>>,Iterable<A>,Tuple2<Iterable<B>,Iterable<C>>>, Applicative<Fn1<Iterable<A>,Tuple2<Iterable<B>,Iterable<C>>>,Fn1<Fn1<? super A,? extends CoProduct2<B,C,?>>,?>>, Cartesian<Fn1<? super A,? extends CoProduct2<B,C,?>>,Fn1<Iterable<A>,Tuple2<Iterable<B>,Iterable<C>>>,Fn1<?,?>>, Cocartesian<Fn1<? super A,? extends CoProduct2<B,C,?>>,Fn1<Iterable<A>,Tuple2<Iterable<B>,Iterable<C>>>,Fn1<?,?>>, Contravariant<Fn1<? super A,? extends CoProduct2<B,C,?>>,Profunctor<?,Fn1<Iterable<A>,Tuple2<Iterable<B>,Iterable<C>>>,Fn1<?,?>>>, Functor<Fn1<Iterable<A>,Tuple2<Iterable<B>,Iterable<C>>>,Fn1<Fn1<? super A,? extends CoProduct2<B,C,?>>,?>>, Profunctor<Fn1<? super A,? extends CoProduct2<B,C,?>>,Fn1<Iterable<A>,Tuple2<Iterable<B>,Iterable<C>>>,Fn1<?,?>>, Monad<Fn1<Iterable<A>,Tuple2<Iterable<B>,Iterable<C>>>,Fn1<Fn1<? super A,? extends CoProduct2<B,C,?>>,?>>, MonadReader<Fn1<? super A,? extends CoProduct2<B,C,?>>,Fn1<Iterable<A>,Tuple2<Iterable<B>,Iterable<C>>>,Fn1<Fn1<? super A,? extends CoProduct2<B,C,?>>,?>>, MonadRec<Fn1<Iterable<A>,Tuple2<Iterable<B>,Iterable<C>>>,Fn1<Fn1<? super A,? extends CoProduct2<B,C,?>>,?>>, MonadWriter<Fn1<? super A,? extends CoProduct2<B,C,?>>,Fn1<Iterable<A>,Tuple2<Iterable<B>,Iterable<C>>>,Fn1<Fn1<? super A,? extends CoProduct2<B,C,?>>,?>>

public final class Partition<A,B,C> extends Object implements Fn2<Fn1<? super A,? extends CoProduct2<B,C,?>>,Iterable<A>,Tuple2<Iterable<B>,Iterable<C>>>
Given an Iterable<A> as and a disjoint mapping function a -> CoProduct2<A, B>, return a Tuple2 over the lazily unwrapped left A and right B values in the first and second slots, respectively. Note that while the tuple must be constructed eagerly, the left and right iterables contained therein are both lazy, so comprehension over infinite iterables is supported.
See Also: