8023681: Fix raw type warning caused by Sink

Reviewed-by: mduigou, briangoetz
This commit is contained in:
Henry Jen 2013-08-09 09:05:20 -07:00
parent 231a351a47
commit 7d471dd141
9 changed files with 101 additions and 111 deletions

View File

@ -137,6 +137,11 @@ public final class Collectors {
return (u,v) -> { throw new IllegalStateException(String.format("Duplicate key %s", u)); };
}
@SuppressWarnings("unchecked")
private static <I, R> Function<I, R> castingIdentity() {
return i -> (R) i;
}
/**
* Simple implementation class for {@code Collector}.
*
@ -166,7 +171,7 @@ public final class Collectors {
BiConsumer<A, T> accumulator,
BinaryOperator<A> combiner,
Set<Characteristics> characteristics) {
this(supplier, accumulator, combiner, i -> (R) i, characteristics);
this(supplier, accumulator, combiner, castingIdentity(), characteristics);
}
@Override
@ -209,7 +214,7 @@ public final class Collectors {
*/
public static <T, C extends Collection<T>>
Collector<T, ?, C> toCollection(Supplier<C> collectionFactory) {
return new CollectorImpl<>(collectionFactory, Collection::add,
return new CollectorImpl<>(collectionFactory, Collection<T>::add,
(r1, r2) -> { r1.addAll(r2); return r1; },
CH_ID);
}
@ -1046,30 +1051,23 @@ public final class Collectors {
public static <T, D, A>
Collector<T, ?, Map<Boolean, D>> partitioningBy(Predicate<? super T> predicate,
Collector<? super T, A, D> downstream) {
@SuppressWarnings("unchecked")
BiConsumer<D, ? super T> downstreamAccumulator = (BiConsumer<D, ? super T>) downstream.accumulator();
BiConsumer<Map<Boolean, A>, T> accumulator = (result, t) -> {
Partition<D> asPartition = ((Partition<D>) result);
downstreamAccumulator.accept(predicate.test(t) ? asPartition.forTrue : asPartition.forFalse, t);
};
BiConsumer<A, ? super T> downstreamAccumulator = downstream.accumulator();
BiConsumer<Partition<A>, T> accumulator = (result, t) ->
downstreamAccumulator.accept(predicate.test(t) ? result.forTrue : result.forFalse, t);
BinaryOperator<A> op = downstream.combiner();
BinaryOperator<Map<Boolean, A>> merger = (m1, m2) -> {
Partition<A> left = (Partition<A>) m1;
Partition<A> right = (Partition<A>) m2;
return new Partition<>(op.apply(left.forTrue, right.forTrue),
op.apply(left.forFalse, right.forFalse));
};
Supplier<Map<Boolean, A>> supplier = () -> new Partition<>(downstream.supplier().get(),
downstream.supplier().get());
BinaryOperator<Partition<A>> merger = (left, right) ->
new Partition<>(op.apply(left.forTrue, right.forTrue),
op.apply(left.forFalse, right.forFalse));
Supplier<Partition<A>> supplier = () ->
new Partition<>(downstream.supplier().get(),
downstream.supplier().get());
if (downstream.characteristics().contains(Collector.Characteristics.IDENTITY_FINISH)) {
return new CollectorImpl<>(supplier, accumulator, merger, CH_ID);
}
else {
Function<Map<Boolean, A>, Map<Boolean, D>> finisher = (Map<Boolean, A> par) -> {
Partition<A> asAPartition = (Partition<A>) par;
return new Partition<>(downstream.finisher().apply(asAPartition.forTrue),
downstream.finisher().apply(asAPartition.forFalse));
};
Function<Partition<A>, Map<Boolean, D>> finisher = par ->
new Partition<>(downstream.finisher().apply(par.forTrue),
downstream.finisher().apply(par.forFalse));
return new CollectorImpl<>(supplier, accumulator, merger, finisher, CH_NOID);
}
}

View File

@ -101,7 +101,7 @@ final class DistinctOps {
if (StreamOpFlag.DISTINCT.isKnown(flags)) {
return sink;
} else if (StreamOpFlag.SORTED.isKnown(flags)) {
return new Sink.ChainedReference<T>(sink) {
return new Sink.ChainedReference<T, T>(sink) {
boolean seenNull;
T lastSeen;
@ -132,7 +132,7 @@ final class DistinctOps {
}
};
} else {
return new Sink.ChainedReference<T>(sink) {
return new Sink.ChainedReference<T, T>(sink) {
Set<T> seen;
@Override

View File

@ -191,7 +191,7 @@ abstract class DoublePipeline<E_IN>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT) {
@Override
Sink<Double> opWrapSink(int flags, Sink<Double> sink) {
return new Sink.ChainedDouble(sink) {
return new Sink.ChainedDouble<Double>(sink) {
@Override
public void accept(double t) {
downstream.accept(mapper.applyAsDouble(t));
@ -208,9 +208,8 @@ abstract class DoublePipeline<E_IN>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT) {
@Override
Sink<Double> opWrapSink(int flags, Sink<U> sink) {
return new Sink.ChainedDouble(sink) {
return new Sink.ChainedDouble<U>(sink) {
@Override
@SuppressWarnings("unchecked")
public void accept(double t) {
downstream.accept(mapper.apply(t));
}
@ -226,7 +225,7 @@ abstract class DoublePipeline<E_IN>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT) {
@Override
Sink<Double> opWrapSink(int flags, Sink<Integer> sink) {
return new Sink.ChainedDouble(sink) {
return new Sink.ChainedDouble<Integer>(sink) {
@Override
public void accept(double t) {
downstream.accept(mapper.applyAsInt(t));
@ -243,7 +242,7 @@ abstract class DoublePipeline<E_IN>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT) {
@Override
Sink<Double> opWrapSink(int flags, Sink<Long> sink) {
return new Sink.ChainedDouble(sink) {
return new Sink.ChainedDouble<Long>(sink) {
@Override
public void accept(double t) {
downstream.accept(mapper.applyAsLong(t));
@ -259,7 +258,7 @@ abstract class DoublePipeline<E_IN>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT | StreamOpFlag.NOT_SIZED) {
@Override
Sink<Double> opWrapSink(int flags, Sink<Double> sink) {
return new Sink.ChainedDouble(sink) {
return new Sink.ChainedDouble<Double>(sink) {
@Override
public void begin(long size) {
downstream.begin(-1);
@ -296,7 +295,7 @@ abstract class DoublePipeline<E_IN>
StreamOpFlag.NOT_SIZED) {
@Override
Sink<Double> opWrapSink(int flags, Sink<Double> sink) {
return new Sink.ChainedDouble(sink) {
return new Sink.ChainedDouble<Double>(sink) {
@Override
public void begin(long size) {
downstream.begin(-1);
@ -319,7 +318,7 @@ abstract class DoublePipeline<E_IN>
0) {
@Override
Sink<Double> opWrapSink(int flags, Sink<Double> sink) {
return new Sink.ChainedDouble(sink) {
return new Sink.ChainedDouble<Double>(sink) {
@Override
public void accept(double t) {
consumer.accept(t);

View File

@ -189,9 +189,8 @@ abstract class IntPipeline<E_IN>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT) {
@Override
Sink<Integer> opWrapSink(int flags, Sink<Long> sink) {
return new Sink.ChainedInt(sink) {
return new Sink.ChainedInt<Long>(sink) {
@Override
@SuppressWarnings("unchecked")
public void accept(int t) {
downstream.accept((long) t);
}
@ -206,9 +205,8 @@ abstract class IntPipeline<E_IN>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT) {
@Override
Sink<Integer> opWrapSink(int flags, Sink<Double> sink) {
return new Sink.ChainedInt(sink) {
return new Sink.ChainedInt<Double>(sink) {
@Override
@SuppressWarnings("unchecked")
public void accept(int t) {
downstream.accept((double) t);
}
@ -229,7 +227,7 @@ abstract class IntPipeline<E_IN>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT) {
@Override
Sink<Integer> opWrapSink(int flags, Sink<Integer> sink) {
return new Sink.ChainedInt(sink) {
return new Sink.ChainedInt<Integer>(sink) {
@Override
public void accept(int t) {
downstream.accept(mapper.applyAsInt(t));
@ -246,9 +244,8 @@ abstract class IntPipeline<E_IN>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT) {
@Override
Sink<Integer> opWrapSink(int flags, Sink<U> sink) {
return new Sink.ChainedInt(sink) {
return new Sink.ChainedInt<U>(sink) {
@Override
@SuppressWarnings("unchecked")
public void accept(int t) {
downstream.accept(mapper.apply(t));
}
@ -264,7 +261,7 @@ abstract class IntPipeline<E_IN>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT) {
@Override
Sink<Integer> opWrapSink(int flags, Sink<Long> sink) {
return new Sink.ChainedInt(sink) {
return new Sink.ChainedInt<Long>(sink) {
@Override
public void accept(int t) {
downstream.accept(mapper.applyAsLong(t));
@ -281,7 +278,7 @@ abstract class IntPipeline<E_IN>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT) {
@Override
Sink<Integer> opWrapSink(int flags, Sink<Double> sink) {
return new Sink.ChainedInt(sink) {
return new Sink.ChainedInt<Double>(sink) {
@Override
public void accept(int t) {
downstream.accept(mapper.applyAsDouble(t));
@ -297,7 +294,7 @@ abstract class IntPipeline<E_IN>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT | StreamOpFlag.NOT_SIZED) {
@Override
Sink<Integer> opWrapSink(int flags, Sink<Integer> sink) {
return new Sink.ChainedInt(sink) {
return new Sink.ChainedInt<Integer>(sink) {
@Override
public void begin(long size) {
downstream.begin(-1);
@ -334,7 +331,7 @@ abstract class IntPipeline<E_IN>
StreamOpFlag.NOT_SIZED) {
@Override
Sink<Integer> opWrapSink(int flags, Sink<Integer> sink) {
return new Sink.ChainedInt(sink) {
return new Sink.ChainedInt<Integer>(sink) {
@Override
public void begin(long size) {
downstream.begin(-1);
@ -357,7 +354,7 @@ abstract class IntPipeline<E_IN>
0) {
@Override
Sink<Integer> opWrapSink(int flags, Sink<Integer> sink) {
return new Sink.ChainedInt(sink) {
return new Sink.ChainedInt<Integer>(sink) {
@Override
public void accept(int t) {
consumer.accept(t);

View File

@ -186,7 +186,7 @@ abstract class LongPipeline<E_IN>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT) {
@Override
Sink<Long> opWrapSink(int flags, Sink<Double> sink) {
return new Sink.ChainedLong(sink) {
return new Sink.ChainedLong<Double>(sink) {
@Override
public void accept(long t) {
downstream.accept((double) t);
@ -208,9 +208,8 @@ abstract class LongPipeline<E_IN>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT) {
@Override
Sink<Long> opWrapSink(int flags, Sink<Long> sink) {
return new Sink.ChainedLong(sink) {
return new Sink.ChainedLong<Long>(sink) {
@Override
@SuppressWarnings("unchecked")
public void accept(long t) {
downstream.accept(mapper.applyAsLong(t));
}
@ -226,9 +225,8 @@ abstract class LongPipeline<E_IN>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT) {
@Override
Sink<Long> opWrapSink(int flags, Sink<U> sink) {
return new Sink.ChainedLong(sink) {
return new Sink.ChainedLong<U>(sink) {
@Override
@SuppressWarnings("unchecked")
public void accept(long t) {
downstream.accept(mapper.apply(t));
}
@ -244,9 +242,8 @@ abstract class LongPipeline<E_IN>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT) {
@Override
Sink<Long> opWrapSink(int flags, Sink<Integer> sink) {
return new Sink.ChainedLong(sink) {
return new Sink.ChainedLong<Integer>(sink) {
@Override
@SuppressWarnings("unchecked")
public void accept(long t) {
downstream.accept(mapper.applyAsInt(t));
}
@ -262,7 +259,7 @@ abstract class LongPipeline<E_IN>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT) {
@Override
Sink<Long> opWrapSink(int flags, Sink<Double> sink) {
return new Sink.ChainedLong(sink) {
return new Sink.ChainedLong<Double>(sink) {
@Override
public void accept(long t) {
downstream.accept(mapper.applyAsDouble(t));
@ -278,7 +275,7 @@ abstract class LongPipeline<E_IN>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT | StreamOpFlag.NOT_SIZED) {
@Override
Sink<Long> opWrapSink(int flags, Sink<Long> sink) {
return new Sink.ChainedLong(sink) {
return new Sink.ChainedLong<Long>(sink) {
@Override
public void begin(long size) {
downstream.begin(-1);
@ -315,7 +312,7 @@ abstract class LongPipeline<E_IN>
StreamOpFlag.NOT_SIZED) {
@Override
Sink<Long> opWrapSink(int flags, Sink<Long> sink) {
return new Sink.ChainedLong(sink) {
return new Sink.ChainedLong<Long>(sink) {
@Override
public void begin(long size) {
downstream.begin(-1);
@ -338,7 +335,7 @@ abstract class LongPipeline<E_IN>
0) {
@Override
Sink<Long> opWrapSink(int flags, Sink<Long> sink) {
return new Sink.ChainedLong(sink) {
return new Sink.ChainedLong<Long>(sink) {
@Override
public void accept(long t) {
consumer.accept(t);

View File

@ -163,17 +163,16 @@ abstract class ReferencePipeline<P_IN, P_OUT>
StreamOpFlag.NOT_SIZED) {
@Override
Sink<P_OUT> opWrapSink(int flags, Sink<P_OUT> sink) {
return new Sink.ChainedReference<P_OUT>(sink) {
return new Sink.ChainedReference<P_OUT, P_OUT>(sink) {
@Override
public void begin(long size) {
downstream.begin(-1);
}
@Override
@SuppressWarnings("unchecked")
public void accept(P_OUT u) {
if (predicate.test(u))
downstream.accept((Object) u);
downstream.accept(u);
}
};
}
@ -188,7 +187,7 @@ abstract class ReferencePipeline<P_IN, P_OUT>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT) {
@Override
Sink<P_OUT> opWrapSink(int flags, Sink<R> sink) {
return new Sink.ChainedReference<P_OUT>(sink) {
return new Sink.ChainedReference<P_OUT, R>(sink) {
@Override
public void accept(P_OUT u) {
downstream.accept(mapper.apply(u));
@ -205,7 +204,7 @@ abstract class ReferencePipeline<P_IN, P_OUT>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT) {
@Override
Sink<P_OUT> opWrapSink(int flags, Sink<Integer> sink) {
return new Sink.ChainedReference<P_OUT>(sink) {
return new Sink.ChainedReference<P_OUT, Integer>(sink) {
@Override
public void accept(P_OUT u) {
downstream.accept(mapper.applyAsInt(u));
@ -222,7 +221,7 @@ abstract class ReferencePipeline<P_IN, P_OUT>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT) {
@Override
Sink<P_OUT> opWrapSink(int flags, Sink<Long> sink) {
return new Sink.ChainedReference<P_OUT>(sink) {
return new Sink.ChainedReference<P_OUT, Long>(sink) {
@Override
public void accept(P_OUT u) {
downstream.accept(mapper.applyAsLong(u));
@ -239,7 +238,7 @@ abstract class ReferencePipeline<P_IN, P_OUT>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT) {
@Override
Sink<P_OUT> opWrapSink(int flags, Sink<Double> sink) {
return new Sink.ChainedReference<P_OUT>(sink) {
return new Sink.ChainedReference<P_OUT, Double>(sink) {
@Override
public void accept(P_OUT u) {
downstream.accept(mapper.applyAsDouble(u));
@ -257,14 +256,13 @@ abstract class ReferencePipeline<P_IN, P_OUT>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT | StreamOpFlag.NOT_SIZED) {
@Override
Sink<P_OUT> opWrapSink(int flags, Sink<R> sink) {
return new Sink.ChainedReference<P_OUT>(sink) {
return new Sink.ChainedReference<P_OUT, R>(sink) {
@Override
public void begin(long size) {
downstream.begin(-1);
}
@Override
@SuppressWarnings("unchecked")
public void accept(P_OUT u) {
// We can do better that this too; optimize for depth=0 case and just grab spliterator and forEach it
Stream<? extends R> result = mapper.apply(u);
@ -284,7 +282,7 @@ abstract class ReferencePipeline<P_IN, P_OUT>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT | StreamOpFlag.NOT_SIZED) {
@Override
Sink<P_OUT> opWrapSink(int flags, Sink<Integer> sink) {
return new Sink.ChainedReference<P_OUT>(sink) {
return new Sink.ChainedReference<P_OUT, Integer>(sink) {
IntConsumer downstreamAsInt = downstream::accept;
@Override
public void begin(long size) {
@ -311,7 +309,7 @@ abstract class ReferencePipeline<P_IN, P_OUT>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT | StreamOpFlag.NOT_SIZED) {
@Override
Sink<P_OUT> opWrapSink(int flags, Sink<Double> sink) {
return new Sink.ChainedReference<P_OUT>(sink) {
return new Sink.ChainedReference<P_OUT, Double>(sink) {
DoubleConsumer downstreamAsDouble = downstream::accept;
@Override
public void begin(long size) {
@ -338,7 +336,7 @@ abstract class ReferencePipeline<P_IN, P_OUT>
StreamOpFlag.NOT_SORTED | StreamOpFlag.NOT_DISTINCT | StreamOpFlag.NOT_SIZED) {
@Override
Sink<P_OUT> opWrapSink(int flags, Sink<Long> sink) {
return new Sink.ChainedReference<P_OUT>(sink) {
return new Sink.ChainedReference<P_OUT, Long>(sink) {
LongConsumer downstreamAsLong = downstream::accept;
@Override
public void begin(long size) {
@ -364,9 +362,8 @@ abstract class ReferencePipeline<P_IN, P_OUT>
0) {
@Override
Sink<P_OUT> opWrapSink(int flags, Sink<P_OUT> sink) {
return new Sink.ChainedReference<P_OUT>(sink) {
return new Sink.ChainedReference<P_OUT, P_OUT>(sink) {
@Override
@SuppressWarnings("unchecked")
public void accept(P_OUT u) {
tee.accept(u);
downstream.accept(u);
@ -495,6 +492,7 @@ abstract class ReferencePipeline<P_IN, P_OUT>
}
@Override
@SuppressWarnings("unchecked")
public final <R, A> R collect(Collector<? super P_OUT, A, ? extends R> collector) {
A container;
if (isParallel()

View File

@ -241,11 +241,10 @@ interface Sink<T> extends Consumer<T> {
* implementation of the {@code accept()} method must call the correct
* {@code accept()} method on the downstream {@code Sink}.
*/
static abstract class ChainedReference<T> implements Sink<T> {
@SuppressWarnings("rawtypes")
protected final Sink downstream;
static abstract class ChainedReference<T, E_OUT> implements Sink<T> {
protected final Sink<? super E_OUT> downstream;
public ChainedReference(Sink downstream) {
public ChainedReference(Sink<? super E_OUT> downstream) {
this.downstream = Objects.requireNonNull(downstream);
}
@ -274,11 +273,10 @@ interface Sink<T> extends Consumer<T> {
* The implementation of the {@code accept()} method must call the correct
* {@code accept()} method on the downstream {@code Sink}.
*/
static abstract class ChainedInt implements Sink.OfInt {
@SuppressWarnings("rawtypes")
protected final Sink downstream;
static abstract class ChainedInt<E_OUT> implements Sink.OfInt {
protected final Sink<? super E_OUT> downstream;
public ChainedInt(Sink downstream) {
public ChainedInt(Sink<? super E_OUT> downstream) {
this.downstream = Objects.requireNonNull(downstream);
}
@ -307,11 +305,10 @@ interface Sink<T> extends Consumer<T> {
* The implementation of the {@code accept()} method must call the correct
* {@code accept()} method on the downstream {@code Sink}.
*/
static abstract class ChainedLong implements Sink.OfLong {
@SuppressWarnings("rawtypes")
protected final Sink downstream;
static abstract class ChainedLong<E_OUT> implements Sink.OfLong {
protected final Sink<? super E_OUT> downstream;
public ChainedLong(Sink downstream) {
public ChainedLong(Sink<? super E_OUT> downstream) {
this.downstream = Objects.requireNonNull(downstream);
}
@ -340,11 +337,10 @@ interface Sink<T> extends Consumer<T> {
* The implementation of the {@code accept()} method must call the correct
* {@code accept()} method on the downstream {@code Sink}.
*/
static abstract class ChainedDouble implements Sink.OfDouble {
@SuppressWarnings("rawtypes")
protected final Sink downstream;
static abstract class ChainedDouble<E_OUT> implements Sink.OfDouble {
protected final Sink<? super E_OUT> downstream;
public ChainedDouble(Sink downstream) {
public ChainedDouble(Sink<? super E_OUT> downstream) {
this.downstream = Objects.requireNonNull(downstream);
}

View File

@ -96,6 +96,11 @@ final class SliceOps {
}
}
@SuppressWarnings("unchecked")
private static <T> IntFunction<T[]> castingArray() {
return size -> (T[]) new Object[size];
}
/**
* Appends a "slice" operation to the provided stream. The slice operation
* may be may be skip-only, limit-only, or skip-and-limit.
@ -107,12 +112,12 @@ final class SliceOps {
* is to be imposed
*/
public static <T> Stream<T> makeRef(AbstractPipeline<?, T, ?> upstream,
long skip, long limit) {
long skip, long limit) {
if (skip < 0)
throw new IllegalArgumentException("Skip must be non-negative: " + skip);
return new ReferencePipeline.StatefulOp<T,T>(upstream, StreamShape.REFERENCE,
flags(limit)) {
return new ReferencePipeline.StatefulOp<T, T>(upstream, StreamShape.REFERENCE,
flags(limit)) {
Spliterator<T> unorderedSkipLimitSpliterator(Spliterator<T> s,
long skip, long limit, long sizeIfKnown) {
if (skip <= sizeIfKnown) {
@ -146,7 +151,7 @@ final class SliceOps {
// cancellation will be more aggressive cancelling later tasks
// if the target slice size has been reached from a given task,
// cancellation should also clear local results if any
return new SliceTask<>(this, helper, spliterator, i -> (T[]) new Object[i], skip, limit).
return new SliceTask<>(this, helper, spliterator, castingArray(), skip, limit).
invoke().spliterator();
}
}
@ -182,7 +187,7 @@ final class SliceOps {
@Override
Sink<T> opWrapSink(int flags, Sink<T> sink) {
return new Sink.ChainedReference<T>(sink) {
return new Sink.ChainedReference<T, T>(sink) {
long n = skip;
long m = limit >= 0 ? limit : Long.MAX_VALUE;
@ -291,7 +296,7 @@ final class SliceOps {
@Override
Sink<Integer> opWrapSink(int flags, Sink<Integer> sink) {
return new Sink.ChainedInt(sink) {
return new Sink.ChainedInt<Integer>(sink) {
long n = skip;
long m = limit >= 0 ? limit : Long.MAX_VALUE;
@ -400,7 +405,7 @@ final class SliceOps {
@Override
Sink<Long> opWrapSink(int flags, Sink<Long> sink) {
return new Sink.ChainedLong(sink) {
return new Sink.ChainedLong<Long>(sink) {
long n = skip;
long m = limit >= 0 ? limit : Long.MAX_VALUE;
@ -509,7 +514,7 @@ final class SliceOps {
@Override
Sink<Double> opWrapSink(int flags, Sink<Double> sink) {
return new Sink.ChainedDouble(sink) {
return new Sink.ChainedDouble<Double>(sink) {
long n = skip;
long m = limit >= 0 ? limit : Long.MAX_VALUE;
@ -560,13 +565,13 @@ final class SliceOps {
private volatile boolean completed;
SliceTask(AbstractPipeline<?, P_OUT, ?> op,
SliceTask(AbstractPipeline<P_OUT, P_OUT, ?> op,
PipelineHelper<P_OUT> helper,
Spliterator<P_IN> spliterator,
IntFunction<P_OUT[]> generator,
long offset, long size) {
super(helper, spliterator);
this.op = (AbstractPipeline<P_OUT, P_OUT, ?>) op;
this.op = op;
this.generator = generator;
this.targetOffset = offset;
this.targetSize = size;

View File

@ -129,7 +129,7 @@ final class SortedOps {
}
@Override
public Sink<T> opWrapSink(int flags, Sink sink) {
public Sink<T> opWrapSink(int flags, Sink<T> sink) {
Objects.requireNonNull(sink);
// If the input is already naturally sorted and this operation
@ -280,12 +280,12 @@ final class SortedOps {
/**
* {@link ForkJoinTask} for implementing sort on SIZED reference streams.
*/
private static final class SizedRefSortingSink<T> extends Sink.ChainedReference<T> {
private static final class SizedRefSortingSink<T> extends Sink.ChainedReference<T, T> {
private final Comparator<? super T> comparator;
private T[] array;
private int offset;
SizedRefSortingSink(Sink<T> sink, Comparator<? super T> comparator) {
SizedRefSortingSink(Sink<? super T> sink, Comparator<? super T> comparator) {
super(sink);
this.comparator = comparator;
}
@ -320,11 +320,11 @@ final class SortedOps {
/**
* {@link Sink} for implementing sort on reference streams.
*/
private static final class RefSortingSink<T> extends Sink.ChainedReference<T> {
private static final class RefSortingSink<T> extends Sink.ChainedReference<T, T> {
private final Comparator<? super T> comparator;
private ArrayList<T> list;
RefSortingSink(Sink<T> sink, Comparator<? super T> comparator) {
RefSortingSink(Sink<? super T> sink, Comparator<? super T> comparator) {
super(sink);
this.comparator = comparator;
}
@ -352,11 +352,11 @@ final class SortedOps {
/**
* {@link Sink} for implementing sort on SIZED int streams.
*/
private static final class SizedIntSortingSink extends Sink.ChainedInt {
private static final class SizedIntSortingSink extends Sink.ChainedInt<Integer> {
private int[] array;
private int offset;
SizedIntSortingSink(Sink downstream) {
SizedIntSortingSink(Sink<? super Integer> downstream) {
super(downstream);
}
@ -386,10 +386,10 @@ final class SortedOps {
/**
* {@link Sink} for implementing sort on int streams.
*/
private static final class IntSortingSink extends Sink.ChainedInt {
private static final class IntSortingSink extends Sink.ChainedInt<Integer> {
private SpinedBuffer.OfInt b;
IntSortingSink(Sink sink) {
IntSortingSink(Sink<? super Integer> sink) {
super(sink);
}
@ -417,11 +417,11 @@ final class SortedOps {
/**
* {@link Sink} for implementing sort on SIZED long streams.
*/
private static final class SizedLongSortingSink extends Sink.ChainedLong {
private static final class SizedLongSortingSink extends Sink.ChainedLong<Long> {
private long[] array;
private int offset;
SizedLongSortingSink(Sink downstream) {
SizedLongSortingSink(Sink<? super Long> downstream) {
super(downstream);
}
@ -451,10 +451,10 @@ final class SortedOps {
/**
* {@link Sink} for implementing sort on long streams.
*/
private static final class LongSortingSink extends Sink.ChainedLong {
private static final class LongSortingSink extends Sink.ChainedLong<Long> {
private SpinedBuffer.OfLong b;
LongSortingSink(Sink sink) {
LongSortingSink(Sink<? super Long> sink) {
super(sink);
}
@ -482,11 +482,11 @@ final class SortedOps {
/**
* {@link Sink} for implementing sort on SIZED double streams.
*/
private static final class SizedDoubleSortingSink extends Sink.ChainedDouble {
private static final class SizedDoubleSortingSink extends Sink.ChainedDouble<Double> {
private double[] array;
private int offset;
SizedDoubleSortingSink(Sink downstream) {
SizedDoubleSortingSink(Sink<? super Double> downstream) {
super(downstream);
}
@ -516,10 +516,10 @@ final class SortedOps {
/**
* {@link Sink} for implementing sort on double streams.
*/
private static final class DoubleSortingSink extends Sink.ChainedDouble {
private static final class DoubleSortingSink extends Sink.ChainedDouble<Double> {
private SpinedBuffer.OfDouble b;
DoubleSortingSink(Sink sink) {
DoubleSortingSink(Sink<? super Double> sink) {
super(sink);
}