/*
* Copyright (c) 2011-2017 Pivotal Software Inc, All Rights Reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/*
* Copyright (c) 2011-2017 Pivotal Software Inc, All Rights Reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package reactor.core.publisher;
import java.util.
Objects;
import java.util.function.
BiFunction;
import org.reactivestreams.
Subscription;
import reactor.core.
CoreSubscriber;
import reactor.core.
Fuseable;
import reactor.util.annotation.
Nullable;
import reactor.util.function.
Tuple2;
/**
* A {@link reactor.core.Fuseable} version of {@link FluxIndex}, an
* operator that tags the values it passes through with their index in the original
* sequence, either as their natural long index (0-based) or as a customized index
* by way of a user-provided {@link BiFunction}. The resulting sequence is one of
* {@link Tuple2}, t1 value being the index (as mapped by the user function) and t2 the
* source value.
*
* @author Simon Baslé
*/
final class
FluxIndexFuseable<T, I> extends
FluxOperator<T, I>
implements
Fuseable {
private final
BiFunction<? super
Long, ? super T, ? extends I>
indexMapper;
FluxIndexFuseable(
Flux<T>
source,
BiFunction<? super
Long, ? super T, ? extends I>
indexMapper) {
super(
source);
this.
indexMapper =
Objects.
requireNonNull(
indexMapper, "indexMapper must be non null");
}
@
Override
public void
subscribe(
CoreSubscriber<? super I>
actual) {
if (
actual instanceof
ConditionalSubscriber) {
@
SuppressWarnings("unchecked")
ConditionalSubscriber<? super I>
cs =
(
ConditionalSubscriber<? super I>)
actual;
source.
subscribe(new
IndexFuseableConditionalSubscriber<>(
cs,
indexMapper));
}
else {
source.
subscribe(new
IndexFuseableSubscriber<>(
actual,
indexMapper));
}
}
static final class
IndexFuseableSubscriber<I, T> implements
InnerOperator<T, I>,
QueueSubscription<I> {
final
CoreSubscriber<? super I>
actual;
final
BiFunction<? super
Long, ? super T, ? extends I>
indexMapper;
boolean
done;
long
index;
QueueSubscription<T>
s;
int
sourceMode;
IndexFuseableSubscriber(
CoreSubscriber<? super I>
actual,
BiFunction<? super
Long, ? super T, ? extends I>
indexMapper) {
this.
actual =
actual;
this.
indexMapper =
indexMapper;
}
@
Override
public void
onSubscribe(
Subscription s) {
if (
Operators.
validate(this.
s,
s)) {
@
SuppressWarnings("unchecked")
QueueSubscription<T>
qs = (
QueueSubscription<T>)
s;
this.
s =
qs;
actual.
onSubscribe(this);
}
}
@
Override
@
Nullable
public I
poll() {
T
v =
s.
poll();
if (
v != null) {
long
i = this.
index;
I
indexed =
Objects.
requireNonNull(
indexMapper.
apply(
i,
v),
"indexMapper returned a null value at raw index " +
i + " for value " +
v);
this.
index =
i + 1;
return
indexed;
}
return null;
}
@
Override
public void
onNext(T
t) {
if (
sourceMode ==
ASYNC) {
actual.
onNext(null);
}
else {
if (
done) {
Operators.
onNextDropped(
t,
actual.
currentContext());
return;
}
long
i = this.
index;
try {
I
indexed =
Objects.
requireNonNull(
indexMapper.
apply(
i,
t),
"indexMapper returned a null value at raw index " +
i +
" for value " +
t);
this.
index =
i + 1L;
actual.
onNext(
indexed);
}
catch (
Throwable e) {
onError(
Operators.
onOperatorError(
s,
e,
t,
actual.
currentContext()));
}
}
}
@
Override
public void
onError(
Throwable t) {
if (
done) {
Operators.
onErrorDropped(
t,
actual.
currentContext());
return;
}
done = true;
actual.
onError(
t);
}
@
Override
public void
onComplete() {
if (
done) {
return;
}
done = true;
actual.
onComplete();
}
@
Override
public
CoreSubscriber<? super I>
actual() {
return this.
actual;
}
@
Override
public void
request(long
n) {
s.
request(
n);
}
@
Override
public void
cancel() {
s.
cancel();
}
@
Override
public boolean
isEmpty() {
return
s.
isEmpty();
}
@
Override
public void
clear() {
s.
clear();
}
@
Override
public int
requestFusion(int
requestedMode) {
int
m;
if (
indexMapper !=
Flux.
TUPLE2_BIFUNCTION && (
requestedMode &
Fuseable.
THREAD_BARRIER) != 0) {
return
Fuseable.
NONE;
}
else {
m =
s.
requestFusion(
requestedMode);
}
sourceMode =
m;
return
m;
}
@
Override
public int
size() {
return
s.
size();
}
@
Override
@
Nullable
public
Object scanUnsafe(
Attr key) {
if (
key ==
Attr.
PARENT) return
s;
if (
key ==
Attr.
TERMINATED) return
done;
return
InnerOperator.super.scanUnsafe(
key);
}
}
static final class
IndexFuseableConditionalSubscriber<I, T>
implements
InnerOperator<T, I>,
ConditionalSubscriber<T>,
QueueSubscription<I> {
final
ConditionalSubscriber<? super I>
actual;
final
BiFunction<? super
Long, ? super T, ? extends I>
indexMapper;
boolean
done;
long
index;
QueueSubscription<T>
s;
int
sourceMode;
IndexFuseableConditionalSubscriber(
ConditionalSubscriber<? super I>
cs,
BiFunction<? super
Long, ? super T, ? extends I>
indexMapper) {
this.
actual =
cs;
this.
indexMapper =
indexMapper;
}
@
Override
public void
onSubscribe(
Subscription s) {
if (
Operators.
validate(this.
s,
s)) {
@
SuppressWarnings("unchecked")
QueueSubscription<T>
qs = (
QueueSubscription<T>)
s;
this.
s =
qs;
actual.
onSubscribe(this);
}
}
@
Override
@
Nullable
public I
poll() {
T
v =
s.
poll();
if (
v != null) {
long
i = this.
index;
I
indexed =
Objects.
requireNonNull(
indexMapper.
apply(
i,
v),
"indexMapper returned a null value at raw index " +
i + " for value " +
v);
this.
index =
i + 1;
return
indexed;
}
return null;
}
@
Override
public boolean
tryOnNext(T
t) {
if (
done) {
Operators.
onNextDropped(
t,
actual.
currentContext());
return true;
}
I
indexed;
long
i = this.
index;
try {
indexed =
Objects.
requireNonNull(
indexMapper.
apply(
i,
t),
"indexMapper returned a null value at raw index " +
i +
" for value " +
t);
this.
index =
i + 1L;
}
catch (
Throwable e) {
onError(
Operators.
onOperatorError(
s,
e,
t,
actual.
currentContext()));
return true;
}
return
actual.
tryOnNext(
indexed);
}
@
Override
public void
onNext(T
t) {
if (
sourceMode ==
ASYNC) {
actual.
onNext(null);
}
else {
if (
done) {
Operators.
onNextDropped(
t,
actual.
currentContext());
return;
}
long
i = this.
index;
try {
I
indexed =
Objects.
requireNonNull(
indexMapper.
apply(
i,
t),
"indexMapper returned a null value at raw index " +
i +
" for value " +
t);
this.
index =
i + 1L;
actual.
onNext(
indexed);
}
catch (
Throwable e) {
onError(
Operators.
onOperatorError(
s,
e,
t,
actual.
currentContext()));
}
}
}
@
Override
public void
onError(
Throwable throwable) {
if (
done) {
Operators.
onErrorDropped(
throwable,
actual.
currentContext());
return;
}
done = true;
actual.
onError(
throwable);
}
@
Override
public void
onComplete() {
if (
done) {
return;
}
done = true;
actual.
onComplete();
}
@
Override
public
CoreSubscriber<? super I>
actual() {
return this.
actual;
}
@
Override
public void
request(long
n) {
s.
request(
n);
}
@
Override
public void
cancel() {
s.
cancel();
}
@
Override
public boolean
isEmpty() {
return
s.
isEmpty();
}
@
Override
public void
clear() {
s.
clear();
}
@
Override
public int
requestFusion(int
requestedMode) {
int
m;
if (
indexMapper !=
Flux.
TUPLE2_BIFUNCTION && (
requestedMode &
Fuseable.
THREAD_BARRIER) != 0) {
return
Fuseable.
NONE;
}
else {
m =
s.
requestFusion(
requestedMode);
}
sourceMode =
m;
return
m;
}
@
Override
public int
size() {
return
s.
size();
}
@
Override
@
Nullable
public
Object scanUnsafe(
Attr key) {
if (
key ==
Attr.
PARENT) return
s;
if (
key ==
Attr.
TERMINATED) return
done;
return
InnerOperator.super.scanUnsafe(
key);
}
}
}