T
- The type contained on the Optional withinpublic interface OptionalT<T> extends org.reactivestreams.Publisher<T>, Functor<T>, Filterable<T>
Modifier and Type | Method and Description |
---|---|
default <B> OptionalT<B> |
bind(java.util.function.Function<? super T,OptionalT<? extends B>> f)
Flat Map the wrapped Optional
|
default <U> OptionalT<U> |
cast(java.lang.Class<? extends U> type)
Cast all elements in a stream to a given type, possibly throwing a
ClassCastException . |
<R> OptionalT<R> |
empty() |
static <T> OptionalTSeq<T> |
emptyList() |
static <T> OptionalTValue<T> |
emptyOptional() |
OptionalT<T> |
filter(java.util.function.Predicate<? super T> test)
Filter the wrapped Optional
|
default OptionalT<T> |
filterNot(java.util.function.Predicate<? super T> fn)
Remove any elements for which the predicate holds (inverse operation to filter)
e.g.
|
<B> OptionalT<B> |
flatMap(java.util.function.Function<? super T,? extends MonadicValue<? extends B>> f) |
static <A> OptionalT<A> |
fromAnyM(AnyM<A> anyM)
|
static <A> OptionalTSeq<A> |
fromAnyMSeq(AnyMSeq<A> anyM) |
static <A> OptionalTValue<A> |
fromAnyMValue(AnyMValue<A> anyM) |
static <A> OptionalTValue<A> |
fromFuture(java.util.concurrent.CompletableFuture<java.util.Optional<A>> future) |
static <A> OptionalTSeq<A> |
fromIterable(java.lang.Iterable<java.util.Optional<A>> iterableOfOptionals) |
static <A> OptionalTValue<A> |
fromIterablOptionalue(java.lang.Iterable<java.util.Optional<A>> iterableOfOptionals) |
static <A> OptionalTValue<A> |
fromOptional(java.util.Optional<java.util.Optional<A>> optional) |
static <A> OptionalTSeq<A> |
fromPublisher(org.reactivestreams.Publisher<java.util.Optional<A>> publisherOfOptionals) |
static <A> OptionalTSeq<A> |
fromStream(java.util.stream.Stream<java.util.Optional<A>> streamOfOptionals) |
static <A> OptionalTValue<A> |
fromValue(MonadicValue<java.util.Optional<A>> monadicValue) |
static <U,R> java.util.function.Function<OptionalT<U>,OptionalT<R>> |
lift(java.util.function.Function<U,R> fn)
Lift a function into one that accepts and returns an OptionalT
This allows multiple monad types to add functionality to existing functions and methods
e.g.
|
static <U1,U2,R> java.util.function.BiFunction<OptionalT<U1>,OptionalT<U2>,OptionalT<R>> |
lift2(java.util.function.BiFunction<? super U1,? super U2,? extends R> fn)
Lift a BiFunction into one that accepts and returns OptionalTs
This allows multiple monad types to add functionality to existing functions and methods
e.g.
|
<B> OptionalT<B> |
map(java.util.function.Function<? super T,? extends B> f)
Map the wrapped Optional
|
default OptionalT<T> |
notNull()
Filter elements retaining only values which are not null
|
static <A> OptionalT<A> |
of(AnyM<java.util.Optional<A>> monads)
Construct an OptionalT from an AnyM that wraps a monad containing Optionals
|
default <U> OptionalT<U> |
ofType(java.lang.Class<? extends U> type)
Keep only those elements in a stream that are of a given type.
|
default <R> OptionalT<R> |
patternMatch(java.util.function.Function<Matchable.CheckValue1<T,R>,Matchable.CheckValue1<T,R>> case1,
java.util.function.Supplier<? extends R> otherwise)
Transform the elements of this Stream with a Pattern Matching case and default value
|
OptionalT<T> |
peek(java.util.function.Consumer<? super T> peek)
Peek at the current value of the Optional
|
ReactiveSeq<T> |
stream() |
default <R> OptionalT<R> |
trampoline(java.util.function.Function<? super T,? extends Trampoline<? extends R>> mapper)
Performs a map operation that can call a recursive method without running out of stack space
|
<R> OptionalT<R> |
unit(R value) |
AnyM<java.util.Optional<T>> |
unwrap() |
ReactiveSeq<T> stream()
<R> OptionalT<R> unit(R value)
<R> OptionalT<R> empty()
OptionalT<T> peek(java.util.function.Consumer<? super T> peek)
OptionalT.of(AnyM.fromStream(Optional.of(10))
.peek(System.out::println);
//prints 10
OptionalT<T> filter(java.util.function.Predicate<? super T> test)
OptionalT.of(AnyM.fromStream(Optional.of(10))
.filter(t->t!=10);
//OptionalT<AnyM<Stream<Optional.empty>>>
filter
in interface Filterable<T>
test
- Predicate to filter the wrapped Optional<B> OptionalT<B> map(java.util.function.Function<? super T,? extends B> f)
OptionalT.of(AnyM.fromStream(Optional.of(10))
.map(t->t=t+1);
//OptionalT<AnyM<Stream<Optional[11]>>>
default <B> OptionalT<B> bind(java.util.function.Function<? super T,OptionalT<? extends B>> f)
OptionalT.of(AnyM.fromStream(Optional.of(10))
.flatMap(t->Optional.empty();
//OptionalT<AnyM<Stream<Optional.empty>>>
f
- FlatMap function<B> OptionalT<B> flatMap(java.util.function.Function<? super T,? extends MonadicValue<? extends B>> f)
static <U,R> java.util.function.Function<OptionalT<U>,OptionalT<R>> lift(java.util.function.Function<U,R> fn)
Function<Integer,Integer> add2 = i -> i+2;
Function<OptionalT<Integer>, OptionalT<Integer>> optTAdd2 = OptionalT.lift(add2);
Stream<Integer> withNulls = Stream.of(1,2,null);
AnyM<Integer> stream = AnyM.ofMonad(withNulls);
AnyM<Optional<Integer>> streamOpt = stream.map(Optional::ofNullable);
List<Integer> results = optTAdd2.apply(OptionalT.of(streamOpt))
.unwrap()
.<Stream<Optional<Integer>>>unwrap()
.filter(Optional::isPresent)
.map(Optional::get)
.collect(Collectors.toList());
//Arrays.asList(3,4);
fn
- Function to enhance with functionality from Optional and another monad typestatic <U1,U2,R> java.util.function.BiFunction<OptionalT<U1>,OptionalT<U2>,OptionalT<R>> lift2(java.util.function.BiFunction<? super U1,? super U2,? extends R> fn)
BiFunction<Integer,Integer,Integer> add = (a,b) -> a+b;
BiFunction<OptionalT<Integer>,OptionalT<Integer>, OptionalT<Integer>> optTAdd2 = OptionalT.lift2(add);
Stream<Integer> withNulls = Stream.of(1,2,null);
AnyM<Integer> stream = AnyM.ofMonad(withNulls);
AnyM<Optional<Integer>> streamOpt = stream.map(Optional::ofNullable);
CompletableFuture<Optional<Integer>> two = CompletableFuture.supplyAsync(()->Optional.of(2));
AnyM<Optional<Integer>> future= AnyM.ofMonad(two);
List<Integer> results = optTAdd2.apply(OptionalT.of(streamOpt),OptionalT.of(future))
.unwrap()
.<Stream<Optional<Integer>>>unwrap()
.filter(Optional::isPresent)
.map(Optional::get)
.collect(Collectors.toList());
//Arrays.asList(3,4);
fn
- BiFunction to enhance with functionality from Optional and another monad typestatic <A> OptionalT<A> fromAnyM(AnyM<A> anyM)
anyM
- AnyM that doesn't contain a monad wrapping an Optionalstatic <A> OptionalT<A> of(AnyM<java.util.Optional<A>> monads)
monads
- AnyM that contains a monad wrapping an Optionalstatic <A> OptionalTValue<A> fromAnyMValue(AnyMValue<A> anyM)
static <A> OptionalTSeq<A> fromAnyMSeq(AnyMSeq<A> anyM)
static <A> OptionalTSeq<A> fromIterable(java.lang.Iterable<java.util.Optional<A>> iterableOfOptionals)
static <A> OptionalTSeq<A> fromStream(java.util.stream.Stream<java.util.Optional<A>> streamOfOptionals)
static <A> OptionalTSeq<A> fromPublisher(org.reactivestreams.Publisher<java.util.Optional<A>> publisherOfOptionals)
static <A> OptionalTValue<A> fromValue(MonadicValue<java.util.Optional<A>> monadicValue)
static <A> OptionalTValue<A> fromOptional(java.util.Optional<java.util.Optional<A>> optional)
static <A> OptionalTValue<A> fromFuture(java.util.concurrent.CompletableFuture<java.util.Optional<A>> future)
static <A> OptionalTValue<A> fromIterablOptionalue(java.lang.Iterable<java.util.Optional<A>> iterableOfOptionals)
static <T> OptionalTValue<T> emptyOptional()
static <T> OptionalTSeq<T> emptyList()
default <U> OptionalT<U> cast(java.lang.Class<? extends U> type)
Functor
ClassCastException
.
// ClassCastException ReactiveSeq.of(1, "a", 2, "b", 3).cast(Integer.class)default <R> OptionalT<R> trampoline(java.util.function.Function<? super T,? extends Trampoline<? extends R>> mapper)
Functor
ReactiveSeq.of(10,20,30,40)
.trampoline(i-> fibonacci(i))
.forEach(System.out::println);
Trampoline<Long> fibonacci(int i){
return fibonacci(i,1,0);
}
Trampoline<Long> fibonacci(int n, long a, long b) {
return n == 0 ? Trampoline.done(b) : Trampoline.more( ()->fibonacci(n-1, a+b, a));
}
55
6765
832040
102334155
ReactiveSeq.of(10_000,200_000,3_000_000,40_000_000)
.trampoline(i-> fibonacci(i))
.forEach(System.out::println);
completes successfully
trampoline
in interface Functor<T>
default <R> OptionalT<R> patternMatch(java.util.function.Function<Matchable.CheckValue1<T,R>,Matchable.CheckValue1<T,R>> case1, java.util.function.Supplier<? extends R> otherwise)
Functor
List<String> result = CollectionX.of(1,2,3,4)
.patternMatch(
c->c.valuesWhere(i->"even", (Integer i)->i%2==0 )
)
// CollectionX["odd","even","odd","even"]
patternMatch
in interface Functor<T>
case1
- Function to generate a case (or chain of cases as a single case)otherwise
- Value if supplied case doesn't matchdefault <U> OptionalT<U> ofType(java.lang.Class<? extends U> type)
Filterable
// (1, 2, 3) ReactiveSeq.of(1, "a", 2, "b",3).ofType(Integer.class)
ofType
in interface Filterable<T>
default OptionalT<T> filterNot(java.util.function.Predicate<? super T> fn)
Filterable
of(1,2,3).filter(i->i>2);
//[1,2]
filterNot
in interface Filterable<T>
fn
- to filter elements by, retaining matchesdefault OptionalT<T> notNull()
Filterable
of(1,2,null,4).nonNull();
//[1,2,4]
notNull
in interface Filterable<T>