Package com.jnape.palatable.lambda.adt.choice

Class Choice3<A,​B,​C>

    • Nested Class Summary

      Nested Classes 
      Modifier and Type Class Description
      private static class  Choice3._A<A,​B,​C>  
      private static class  Choice3._B<A,​B,​C>  
      private static class  Choice3._C<A,​B,​C>  

    • Constructor Summary

      Constructors 
      Modifier Constructor Description
      private Choice3()  

    • Method Summary

      All Methods Static Methods Instance Methods Concrete Methods 
      Modifier and Type Method Description
      static <A,​B,​C>
      Choice3<A,​B,​C>      		 a​(A a)
      Static factory method for wrapping a value of type A in a Choice3.
      static <A,​B,​C>
      Choice3<A,​B,​C>      		 b​(B b)
      Static factory method for wrapping a value of type A in a Choice3.
      <D,​E>
      Choice3<A,​D,​E>      		 biMap​(Fn1<? super B,​? extends D> lFn, Fn1<? super C,​? extends E> rFn)
      Dually map covariantly over both the left and right parameters.
      <D> Choice3<A,​D,​C> biMapL​(Fn1<? super B,​? extends D> fn)
      Covariantly map over the left parameter.
      <D> Choice3<A,​B,​D> biMapR​(Fn1<? super C,​? extends D> fn)
      Covariantly map over the right parameter.
      static <A,​B,​C>
      Choice3<A,​B,​C>      		 c​(C c)
      Static factory method for wrapping a value of type A in a Choice3.
      Choice2<A,​B> converge​(Fn1<? super C,​? extends CoProduct2<A,​B,​?>> convergenceFn)
      Converge this coproduct down to a lower order coproduct by mapping the last possible type into an earlier possible type.
      <D> Choice3<A,​B,​D> discardL​(Applicative<D,​Choice3<A,​B,​?>> appB)
      Sequence both this Applicative and appB, discarding this Applicative's result and returning appB.
      <D> Choice3<A,​B,​C> discardR​(Applicative<D,​Choice3<A,​B,​?>> appB)
      Sequence both this Applicative and appB, discarding appB's result and returning this Applicative.
      <D> Choice4<A,​B,​C,​D> diverge()
      Diverge this coproduct by introducing another possible type that it could represent.
      <D> Choice3<A,​B,​D> flatMap​(Fn1<? super C,​? extends Monad<D,​Choice3<A,​B,​?>>> f)
      Chain dependent computations that may continue or short-circuit based on previous results.
      <D> Choice3<A,​B,​D> fmap​(Fn1<? super C,​? extends D> fn)
      Covariantly transmute this functor's parameter using the given mapping function.
      <D> Lazy<Choice3<A,​B,​D>> lazyZip​(Lazy<? extends Applicative<Fn1<? super C,​? extends D>,​Choice3<A,​B,​?>>> lazyAppFn)
      Given a lazy instance of this applicative over a mapping function, "zip" the two instances together using whatever application semantics the current applicative supports.
      Tuple3<Maybe<A>,​Maybe<B>,​Maybe<C>> project()
      Specialize this choice's projection to a Tuple3.
      <D> Choice3<A,​B,​D> pure​(D d)
      Lift the value b into this applicative functor.
      static <A,​B>
      Pure<Choice3<A,​B,​?>>      		 pureChoice()
      The canonical Pure instance for Choice3.
      <D> Choice3<A,​B,​D> trampolineM​(Fn1<? super C,​? extends MonadRec<RecursiveResult<C,​D>,​Choice3<A,​B,​?>>> fn)
      Given some operation yielding a RecursiveResult inside this MonadRec, internally trampoline the operation until it yields a termination instruction.
      <D,​App extends Applicative<?,​App>,​TravB extends Traversable<D,​Choice3<A,​B,​?>>,​AppTrav extends Applicative<TravB,​App>>
      AppTrav      		 traverse​(Fn1<? super C,​? extends Applicative<D,​App>> fn, Fn1<? super TravB,​? extends AppTrav> pure)
      Apply fn to each element of this traversable from left to right, and collapse the results into a single resulting applicative, potentially with the assistance of the applicative's pure function.
      <D> Choice3<A,​B,​D> zip​(Applicative<Fn1<? super C,​? extends D>,​Choice3<A,​B,​?>> appFn)
      Given another instance of this applicative over a mapping function, "zip" the two instances together using whatever application semantics the current applicative supports.

      • Methods inherited from class java.lang.Object

        clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait

      • Methods inherited from interface com.jnape.palatable.lambda.functor.Functor

        coerce

    • Constructor Detail

      • Choice3

        private Choice3()

    • Method Detail

      • diverge

        public final <D> Choice4<A,​B,​C,​D> diverge()
        Diverge this coproduct by introducing another possible type that it could represent.
        Specified by:
        diverge in interface CoProduct3<A,​B,​C,​Choice3<A,​B,​C>>
        Type Parameters:
        D - the additional possible type of this coproduct
        Returns:
        a CoProduct4<A, B, C, D>
        See Also:
        CoProduct2.diverge()

      • converge

        public final Choice2<A,​B> converge​(Fn1<? super C,​? extends CoProduct2<A,​B,​?>> convergenceFn)
        Converge this coproduct down to a lower order coproduct by mapping the last possible type into an earlier possible type. This is the categorical dual of CoProduct2.diverge(), which introduces the type C and raises the order from 2 to 3.

        The following laws hold for any two coproducts of single order difference:

        • Cancellation: coProductN.diverge().converge(CoProductN::a) == coProductN
        Specified by:
        converge in interface CoProduct3<A,​B,​C,​Choice3<A,​B,​C>>
        Parameters:
        convergenceFn - function from last possible type to earlier type
        Returns:
        a CoProduct2<A, B>

      • fmap

        public final <D> Choice3<A,​B,​D> fmap​(Fn1<? super C,​? extends D> fn)
        Covariantly transmute this functor's parameter using the given mapping function. Generally this method is specialized to return an instance of the class implementing Functor.
        Specified by:
        fmap in interface Applicative<A,​B>
        Specified by:
        fmap in interface Functor<A,​B>
        Specified by:
        fmap in interface Monad<A,​B>
        Specified by:
        fmap in interface MonadRec<A,​B>
        Specified by:
        fmap in interface Traversable<A,​B>
        Type Parameters:
        D - the new parameter type
        Parameters:
        fn - the mapping function
        Returns:
        a functor over B (the new parameter type)

      • biMapL

        public final <D> Choice3<A,​D,​C> biMapL​(Fn1<? super B,​? extends D> fn)
        Covariantly map over the left parameter.
        Specified by:
        biMapL in interface Bifunctor<A,​B,​C>
        Specified by:
        biMapL in interface BoundedBifunctor<B,​C,​java.lang.Object,​java.lang.Object,​Choice3<A,​?,​?>>
        Type Parameters:
        D - 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

        public final <D> Choice3<A,​B,​D> biMapR​(Fn1<? super C,​? extends D> 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 Bifunctor<A,​B,​C>
        Specified by:
        biMapR in interface BoundedBifunctor<B,​C,​java.lang.Object,​java.lang.Object,​Choice3<A,​?,​?>>
        Type Parameters:
        D - 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

        public final <D,​E> Choice3<A,​D,​E> biMap​(Fn1<? super B,​? extends D> lFn,
                                                          Fn1<? super C,​? extends E> rFn)
        Dually map covariantly over both the left and right parameters. This is isomorphic to biMapL(lFn).biMapR(rFn).
        Specified by:
        biMap in interface Bifunctor<A,​B,​C>
        Specified by:
        biMap in interface BoundedBifunctor<B,​C,​java.lang.Object,​java.lang.Object,​Choice3<A,​?,​?>>
        Type Parameters:
        D - the new left parameter type
        E - 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)

      • pure

        public <D> Choice3<A,​B,​D> pure​(D d)
        Lift the value b into this applicative functor.
        Specified by:
        pure in interface Applicative<A,​B>
        Specified by:
        pure in interface Monad<A,​B>
        Specified by:
        pure in interface MonadRec<A,​B>
        Type Parameters:
        D - the type of the returned applicative's parameter
        Parameters:
        d - the value
        Returns:
        an instance of this applicative over b

      • zip

        public <D> Choice3<A,​B,​D> zip​(Applicative<Fn1<? super C,​? extends D>,​Choice3<A,​B,​?>> appFn)
        Given another instance of this applicative over a mapping function, "zip" the two instances together using whatever application semantics the current applicative supports.
        Specified by:
        zip in interface Applicative<A,​B>
        Specified by:
        zip in interface Monad<A,​B>
        Specified by:
        zip in interface MonadRec<A,​B>
        Type Parameters:
        D - the resulting applicative parameter type
        Parameters:
        appFn - the other applicative instance
        Returns:
        the mapped applicative

      • lazyZip

        public <D> Lazy<Choice3<A,​B,​D>> lazyZip​(Lazy<? extends Applicative<Fn1<? super C,​? extends D>,​Choice3<A,​B,​?>>> lazyAppFn)
        Given a lazy instance of this applicative over a mapping function, "zip" the two instances together using whatever application semantics the current applicative supports. This is useful for applicatives that support lazy evaluation and early termination.
        Specified by:
        lazyZip in interface Applicative<A,​B>
        Specified by:
        lazyZip in interface Monad<A,​B>
        Specified by:
        lazyZip in interface MonadRec<A,​B>
        Type Parameters:
        D - the resulting applicative parameter type
        Parameters:
        lazyAppFn - the lazy other applicative instance
        Returns:
        the mapped applicative
        See Also:
        Maybe, Either

      • discardL

        public <D> Choice3<A,​B,​D> discardL​(Applicative<D,​Choice3<A,​B,​?>> appB)
        Sequence both this Applicative and appB, discarding this Applicative's result and returning appB. This is generally useful for sequentially performing side-effects.
        Specified by:
        discardL in interface Applicative<A,​B>
        Specified by:
        discardL in interface Monad<A,​B>
        Specified by:
        discardL in interface MonadRec<A,​B>
        Type Parameters:
        D - the type of the returned Applicative's parameter
        Parameters:
        appB - the other Applicative
        Returns:
        appB

      • discardR

        public <D> Choice3<A,​B,​C> discardR​(Applicative<D,​Choice3<A,​B,​?>> appB)
        Sequence both this Applicative and appB, discarding appB's result and returning this Applicative. This is generally useful for sequentially performing side-effects.
        Specified by:
        discardR in interface Applicative<A,​B>
        Specified by:
        discardR in interface Monad<A,​B>
        Specified by:
        discardR in interface MonadRec<A,​B>
        Type Parameters:
        D - the type of appB's parameter
        Parameters:
        appB - the other Applicative
        Returns:
        this Applicative

      • flatMap

        public <D> Choice3<A,​B,​D> flatMap​(Fn1<? super C,​? extends Monad<D,​Choice3<A,​B,​?>>> f)
        Chain dependent computations that may continue or short-circuit based on previous results.
        Specified by:
        flatMap in interface Monad<A,​B>
        Specified by:
        flatMap in interface MonadRec<A,​B>
        Type Parameters:
        D - the resulting monad parameter type
        Parameters:
        f - the dependent computation over A
        Returns:
        the new monad instance

      • traverse

        public <D,​App extends Applicative<?,​App>,​TravB extends Traversable<D,​Choice3<A,​B,​?>>,​AppTrav extends Applicative<TravB,​App>> AppTrav traverse​(Fn1<? super C,​? extends Applicative<D,​App>> fn,
                                                                                                                                                                                              Fn1<? super TravB,​? extends AppTrav> pure)
        Apply fn to each element of this traversable from left to right, and collapse the results into a single resulting applicative, potentially with the assistance of the applicative's pure function.
        Specified by:
        traverse in interface Traversable<A,​B>
        Type Parameters:
        D - the resulting element type
        App - the result applicative type
        TravB - this Traversable instance over B
        AppTrav - the full inferred resulting type from the traversal
        Parameters:
        fn - the function to apply
        pure - the applicative pure function
        Returns:
        the traversed Traversable, wrapped inside an applicative

      • a

        public static <A,​B,​C> Choice3<A,​B,​C> a​(A a)
        Static factory method for wrapping a value of type A in a Choice3.
        Type Parameters:
        A - the first possible type
        B - the second possible type
        C - the third possible type
        Parameters:
        a - the value
        Returns:
        the wrapped value as a Choice3<A, B, C>

      • b

        public static <A,​B,​C> Choice3<A,​B,​C> b​(B b)
        Static factory method for wrapping a value of type A in a Choice3.
        Type Parameters:
        A - the first possible type
        B - the second possible type
        C - the third possible type
        Parameters:
        b - the value
        Returns:
        the wrapped value as a Choice3<A, B, C>

      • c

        public static <A,​B,​C> Choice3<A,​B,​C> c​(C c)
        Static factory method for wrapping a value of type A in a Choice3.
        Type Parameters:
        A - the first possible type
        B - the second possible type
        C - the third possible type
        Parameters:
        c - the value
        Returns:
        the wrapped value as a Choice3<A, B, C>

      • pureChoice

        public static <A,​B> Pure<Choice3<A,​B,​?>> pureChoice()
        The canonical Pure instance for Choice3.
        Type Parameters:
        A - the first possible type
        B - the second possible type
        Returns:
        the Pure instance