Constructor and Description |
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Instances() |
Modifier and Type | Method and Description |
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static <T> Foldable<ListX.µ> |
foldable()
int sum = Lists.foldable()
.foldLeft(0, (a,b)->a+b, ListX.widen(Arrays.asList(1,2,3,4)));
//10
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static <T,R> Functor<ListX.µ> |
functor()
Transform a list, mulitplying every element by 2
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static <T,R> Monad<ListX.µ> |
monad()
import static com.aol.cyclops2.hkt.jdk.ListX.widen;
ListX<Integer> list = Lists.monad()
.flatMap(i->widen(ListX.range(0,i)), widen(Arrays.asList(1,2,3)))
.convert(ListX::narrowK);
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static <T> MonadPlus<ListX.µ> |
monadPlus()
ListX<Integer> list = Lists.<Integer>monadPlus()
.plus(ListX.widen(Arrays.asList()), ListX.widen(Arrays.asList(10)))
.convert(ListX::narrowK);
//Arrays.asList(10))
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static <T> MonadPlus<ListX.µ> |
monadPlus(Monoid<ListX<T>> m)
Monoid<ListX<Integer>> m = Monoid.of(ListX.widen(Arrays.asList()), (a,b)->a.isEmpty() ? b : a);
ListX<Integer> list = Lists.<Integer>monadPlus(m)
.plus(ListX.widen(Arrays.asList(5)), ListX.widen(Arrays.asList(10)))
.convert(ListX::narrowK);
//Arrays.asList(5))
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static <T,R> MonadZero<ListX.µ> |
monadZero()
ListX<String> list = Lists.unit()
.unit("hello")
.transform(h->Lists.monadZero().filter((String t)->t.startsWith("he"), h))
.convert(ListX::narrowK);
//Arrays.asList("hello"));
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static <T> ListX<T> |
narrow(Higher<ListX.µ,T> completableList)
Convert the HigherKindedType definition for a List into
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static <T> ListX<T> |
narrowK(Higher<ListX.µ,T> future)
Convert the raw Higher Kinded Type for ListType types into the ListType type definition class
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static <C2,T> Traverse<ListX.µ> |
traverse() |
static <T> Pure<ListX.µ> |
unit()
ListX<String> list = Lists.unit()
.unit("hello")
.convert(ListX::narrowK);
//Arrays.asList("hello"))
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static <C2,T> Higher<C2,Higher<ListX.µ,T>> |
widen2(Higher<C2,ListX<T>> flux)
Widen a ListType nested inside another HKT encoded type
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static <T,R> Applicative<ListX.µ> |
zippingApplicative()
import static com.aol.cyclops2.hkt.jdk.ListX.widen;
import static com.aol.cyclops2.util.function.Lambda.l1;
import static java.util.Arrays.asList;
Lists.zippingApplicative()
.ap(widen(asList(l1(this::multiplyByTwo))),widen(asList(1,2,3)));
//[2,4,6]
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public static <T,R> Functor<ListX.µ> functor()
ListX<Integer> list = Lists.functor().map(i->i*2, ListX.widen(Arrays.asList(1,2,3));
//[2,4,6]
An example fluent api working with Lists
ListX<Integer> list = Lists.unit()
.unit("hello")
.transform(h->Lists.functor().map((String v) ->v.length(), h))
.convert(ListX::narrowK);
public static <T> Pure<ListX.µ> unit()
ListX<String> list = Lists.unit()
.unit("hello")
.convert(ListX::narrowK);
//Arrays.asList("hello"))
public static <T,R> Applicative<ListX.µ> zippingApplicative()
import static com.aol.cyclops2.hkt.jdk.ListX.widen;
import static com.aol.cyclops2.util.function.Lambda.l1;
import static java.util.Arrays.asList;
Lists.zippingApplicative()
.ap(widen(asList(l1(this::multiplyByTwo))),widen(asList(1,2,3)));
//[2,4,6]
Example fluent API
ListX<Function<Integer,Integer>> listFn =Lists.unit()
.unit(Lambda.l1((Integer i) ->i*2))
.convert(ListX::narrowK);
ListX<Integer> list = Lists.unit()
.unit("hello")
.transform(h->Lists.functor().map((String v) ->v.length(), h))
.transform(h->Lists.zippingApplicative().ap(listFn, h))
.convert(ListX::narrowK);
//Arrays.asList("hello".length()*2))
public static <T,R> Monad<ListX.µ> monad()
import static com.aol.cyclops2.hkt.jdk.ListX.widen;
ListX<Integer> list = Lists.monad()
.flatMap(i->widen(ListX.range(0,i)), widen(Arrays.asList(1,2,3)))
.convert(ListX::narrowK);
Example fluent API
ListX<Integer> list = Lists.unit()
.unit("hello")
.transform(h->Lists.monad().flatMap((String v) ->Lists.unit().unit(v.length()), h))
.convert(ListX::narrowK);
//Arrays.asList("hello".length())
public static <T,R> MonadZero<ListX.µ> monadZero()
ListX<String> list = Lists.unit()
.unit("hello")
.transform(h->Lists.monadZero().filter((String t)->t.startsWith("he"), h))
.convert(ListX::narrowK);
//Arrays.asList("hello"));
public static <T> MonadPlus<ListX.µ> monadPlus()
ListX<Integer> list = Lists.<Integer>monadPlus()
.plus(ListX.widen(Arrays.asList()), ListX.widen(Arrays.asList(10)))
.convert(ListX::narrowK);
//Arrays.asList(10))
public static <T> MonadPlus<ListX.µ> monadPlus(Monoid<ListX<T>> m)
Monoid<ListX<Integer>> m = Monoid.of(ListX.widen(Arrays.asList()), (a,b)->a.isEmpty() ? b : a);
ListX<Integer> list = Lists.<Integer>monadPlus(m)
.plus(ListX.widen(Arrays.asList(5)), ListX.widen(Arrays.asList(10)))
.convert(ListX::narrowK);
//Arrays.asList(5))
m
- Monoid to use for combining Listspublic static <C2,T> Traverse<ListX.µ> traverse()
public static <T> Foldable<ListX.µ> foldable()
int sum = Lists.foldable()
.foldLeft(0, (a,b)->a+b, ListX.widen(Arrays.asList(1,2,3,4)));
//10
public static <C2,T> Higher<C2,Higher<ListX.µ,T>> widen2(Higher<C2,ListX<T>> flux)
flux
- HTK encoded type containing a List to widenpublic static <T> ListX<T> narrowK(Higher<ListX.µ,T> future)
future
- HKT encoded list into a ListType