Interface Bifunctor<A,B,BF extends Bifunctor<?,?,BF>>

Type Parameters:
A - The type of the left parameter
B - The type of the right parameter
BF - The unification parameter
All Superinterfaces:
BoundedBifunctor<A,B,Object,Object,BF>
All Known Implementing Classes:
Choice2, Choice2._A, Choice2._B, Choice3, Choice3._A, Choice3._B, Choice3._C, Choice4, Choice4._A, Choice4._B, Choice4._C, Choice4._D, Choice5, Choice5._A, Choice5._B, Choice5._C, Choice5._D, Choice5._E, Choice6, Choice6._A, Choice6._B, Choice6._C, Choice6._D, Choice6._E, Choice6._F, Choice7, Choice7._A, Choice7._B, Choice7._C, Choice7._D, Choice7._E, Choice7._F, Choice7._G, Choice8, Choice8._A, Choice8._B, Choice8._C, Choice8._D, Choice8._E, Choice8._F, Choice8._G, Choice8._H, Const, Either, Either.Left, Either.Right, EitherT, RecursiveResult, RecursiveResult.Recurse, RecursiveResult.Terminate, These, These._A, These._B, These.Both, Tuple2, Tuple3, Tuple4, Tuple5, Tuple6, Tuple7, Tuple8
Functional Interface:
This is a functional interface and can therefore be used as the assignment target for a lambda expression or method reference.

@FunctionalInterface public interface Bifunctor<A,B,BF extends Bifunctor<?,?,BF>> extends BoundedBifunctor<A,B,Object,Object,BF>
A dually-parametric functor that maps covariantly over both parameters.

For more information, read about Bifunctors.

See Also:
  • Method Summary

    Modifier and Type
    Method
    Description
    <C, D> Bifunctor<C,D,BF>
    biMap(Fn1<? super A,? extends C> lFn, Fn1<? super B,? extends D> rFn)
    Dually map covariantly over both the left and right parameters.
    default <C> Bifunctor<C,B,BF>
    biMapL(Fn1<? super A,? extends C> fn)
    Covariantly map over the left parameter.
    default <C> Bifunctor<A,C,BF>
    biMapR(Fn1<? super B,? extends C> fn)
    Covariantly map over the right parameter.
  • Method Details

    • biMapL

      default <C> Bifunctor<C,B,BF> biMapL(Fn1<? super A,? extends C> fn)
      Covariantly map over the left parameter.
      Specified by:
      biMapL in interface BoundedBifunctor<A,B,Object,Object,BF extends Bifunctor<?,?,BF>>
      Type Parameters:
      C - the new left parameter type
      Parameters:
      fn - the mapping function
      Returns:
      a bifunctor over C (the new left parameter) and B (the same right parameter)
    • biMapR

      default <C> Bifunctor<A,C,BF> biMapR(Fn1<? super B,? extends C> fn)
      Covariantly map over the right parameter. For all bifunctors that are also functors, it should hold that biMapR(f) == fmap(f).
      Specified by:
      biMapR in interface BoundedBifunctor<A,B,Object,Object,BF extends Bifunctor<?,?,BF>>
      Type Parameters:
      C - the new right parameter type
      Parameters:
      fn - the mapping function
      Returns:
      a bifunctor over A (the same left parameter) and C (the new right parameter)
    • biMap

      <C, D> Bifunctor<C,D,BF> biMap(Fn1<? super A,? extends C> lFn, Fn1<? super B,? extends D> rFn)
      Dually map covariantly over both the left and right parameters. This is isomorphic to biMapL(lFn).biMapR(rFn).
      Specified by:
      biMap in interface BoundedBifunctor<A,B,Object,Object,BF extends Bifunctor<?,?,BF>>
      Type Parameters:
      C - the new left parameter type
      D - the new right parameter type
      Parameters:
      lFn - the left parameter mapping function
      rFn - the right parameter mapping function
      Returns:
      a bifunctor over C (the new left parameter type) and D (the new right parameter type)