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A general and simple library for Android
/*
* Copyright (C) 2016, 2017, 2018, 2019 HaiYang Li
*
* 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 com.landawn.abacus.util.stream;
import java.util.Collection;
import java.util.Deque;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.NoSuchElementException;
import java.util.Set;
import java.util.concurrent.Executor;
import com.landawn.abacus.util.CharIterator;
import com.landawn.abacus.util.CharList;
import com.landawn.abacus.util.CharSummaryStatistics;
import com.landawn.abacus.util.Fn.Suppliers;
import com.landawn.abacus.util.IntIterator;
import com.landawn.abacus.util.LongMultiset;
import com.landawn.abacus.util.Multiset;
import com.landawn.abacus.util.N;
import com.landawn.abacus.util.Try;
import com.landawn.abacus.util.u.Optional;
import com.landawn.abacus.util.u.OptionalChar;
import com.landawn.abacus.util.u.OptionalDouble;
import com.landawn.abacus.util.function.BiConsumer;
import com.landawn.abacus.util.function.BiFunction;
import com.landawn.abacus.util.function.BinaryOperator;
import com.landawn.abacus.util.function.CharBinaryOperator;
import com.landawn.abacus.util.function.CharConsumer;
import com.landawn.abacus.util.function.CharFunction;
import com.landawn.abacus.util.function.CharPredicate;
import com.landawn.abacus.util.function.CharToIntFunction;
import com.landawn.abacus.util.function.CharUnaryOperator;
import com.landawn.abacus.util.function.ObjCharConsumer;
import com.landawn.abacus.util.function.Supplier;
/**
*
*/
class IteratorCharStream extends AbstractCharStream {
CharIteratorEx elements;
// OptionalChar head;
// CharStream tail;
// CharStream head2;
// OptionalChar tail2;
IteratorCharStream(final CharIterator values) {
this(values, null);
}
IteratorCharStream(final CharIterator values, final Collection closeHandlers) {
this(values, false, closeHandlers);
}
IteratorCharStream(final CharIterator values, final boolean sorted, final Collection closeHandlers) {
super(sorted, closeHandlers);
CharIteratorEx tmp = null;
if (values instanceof CharIteratorEx) {
tmp = (CharIteratorEx) values;
} else {
tmp = new CharIteratorEx() {
@Override
public boolean hasNext() {
return values.hasNext();
}
@Override
public char nextChar() {
return values.nextChar();
}
};
}
this.elements = tmp;
}
@Override
public CharStream filter(final CharPredicate predicate) {
return newStream(new CharIteratorEx() {
private boolean hasNext = false;
private char next = 0;
@Override
public boolean hasNext() {
if (hasNext == false) {
while (elements.hasNext()) {
next = elements.nextChar();
if (predicate.test(next)) {
hasNext = true;
break;
}
}
}
return hasNext;
}
@Override
public char nextChar() {
if (hasNext == false && hasNext() == false) {
throw new NoSuchElementException();
}
hasNext = false;
return next;
}
}, sorted);
}
@Override
public CharStream takeWhile(final CharPredicate predicate) {
return newStream(new CharIteratorEx() {
private boolean hasMore = true;
private boolean hasNext = false;
private char next = 0;
@Override
public boolean hasNext() {
if (hasNext == false && hasMore && elements.hasNext()) {
next = elements.nextChar();
if (predicate.test(next)) {
hasNext = true;
} else {
hasMore = false;
}
}
return hasNext;
}
@Override
public char nextChar() {
if (hasNext == false && hasNext() == false) {
throw new NoSuchElementException();
}
hasNext = false;
return next;
}
}, sorted);
}
@Override
public CharStream dropWhile(final CharPredicate predicate) {
return newStream(new CharIteratorEx() {
private boolean hasNext = false;
private char next = 0;
private boolean dropped = false;
@Override
public boolean hasNext() {
if (hasNext == false) {
if (dropped == false) {
dropped = true;
while (elements.hasNext()) {
next = elements.nextChar();
if (predicate.test(next) == false) {
hasNext = true;
break;
}
}
} else if (elements.hasNext()) {
next = elements.nextChar();
hasNext = true;
}
}
return hasNext;
}
@Override
public char nextChar() {
if (hasNext == false && hasNext() == false) {
throw new NoSuchElementException();
}
hasNext = false;
return next;
}
}, sorted);
}
@Override
public CharStream map(final CharUnaryOperator mapper) {
return newStream(new CharIteratorEx() {
@Override
public boolean hasNext() {
return elements.hasNext();
}
@Override
public char nextChar() {
return mapper.applyAsChar(elements.nextChar());
}
// @Override
// public long count() {
// return elements.count();
// }
//
// @Override
// public void skip(long n) {
// checkArgNotNegative(n, "n");
//
// elements.skip(n);
// }
}, false);
}
@Override
public IntStream mapToInt(final CharToIntFunction mapper) {
return newStream(new IntIteratorEx() {
@Override
public boolean hasNext() {
return elements.hasNext();
}
@Override
public int nextInt() {
return mapper.applyAsInt(elements.nextChar());
}
// @Override
// public long count() {
// return elements.count();
// }
//
// @Override
// public void skip(long n) {
// checkArgNotNegative(n, "n");
//
// elements.skip(n);
// }
}, false);
}
@Override
public Stream mapToObj(final CharFunction mapper) {
return newStream(new ObjIteratorEx() {
@Override
public boolean hasNext() {
return elements.hasNext();
}
@Override
public U next() {
return mapper.apply(elements.nextChar());
}
// @Override
// public long count() {
// return elements.count();
// }
//
// @Override
// public void skip(long n) {
// checkArgNotNegative(n, "n");
//
// elements.skip(n);
// }
}, false, null);
}
@Override
public CharStream flatMap(final CharFunction mapper) {
final CharIteratorEx iter = new CharIteratorEx() {
private CharIterator cur = null;
private CharStream s = null;
private Runnable closeHandle = null;
@Override
public boolean hasNext() {
while ((cur == null || cur.hasNext() == false) && elements.hasNext()) {
if (closeHandle != null) {
final Runnable tmp = closeHandle;
closeHandle = null;
tmp.run();
}
s = mapper.apply(elements.nextChar());
if (N.notNullOrEmpty(s.closeHandlers)) {
final Deque tmp = s.closeHandlers;
closeHandle = new Runnable() {
@Override
public void run() {
Stream.close(tmp);
}
};
}
cur = s.iterator();
}
return cur != null && cur.hasNext();
}
@Override
public char nextChar() {
if ((cur == null || cur.hasNext() == false) && hasNext() == false) {
throw new NoSuchElementException();
}
return cur.nextChar();
}
@Override
public void close() {
if (closeHandle != null) {
final Runnable tmp = closeHandle;
closeHandle = null;
tmp.run();
}
}
};
final Deque newCloseHandlers = N.isNullOrEmpty(closeHandlers) ? new LocalArrayDeque(1)
: new LocalArrayDeque(closeHandlers);
newCloseHandlers.add(new Runnable() {
@Override
public void run() {
iter.close();
}
});
return new IteratorCharStream(iter, newCloseHandlers);
}
@Override
public IntStream flatMapToInt(final CharFunction mapper) {
final IntIteratorEx iter = new IntIteratorEx() {
private IntIterator cur = null;
private IntStream s = null;
private Runnable closeHandle = null;
@Override
public boolean hasNext() {
while ((cur == null || cur.hasNext() == false) && elements.hasNext()) {
if (closeHandle != null) {
final Runnable tmp = closeHandle;
closeHandle = null;
tmp.run();
}
s = mapper.apply(elements.nextChar());
if (N.notNullOrEmpty(s.closeHandlers)) {
final Deque tmp = s.closeHandlers;
closeHandle = new Runnable() {
@Override
public void run() {
Stream.close(tmp);
}
};
}
cur = s.iterator();
}
return cur != null && cur.hasNext();
}
@Override
public int nextInt() {
if ((cur == null || cur.hasNext() == false) && hasNext() == false) {
throw new NoSuchElementException();
}
return cur.nextInt();
}
@Override
public void close() {
if (closeHandle != null) {
final Runnable tmp = closeHandle;
closeHandle = null;
tmp.run();
}
}
};
final Deque newCloseHandlers = N.isNullOrEmpty(closeHandlers) ? new LocalArrayDeque(1)
: new LocalArrayDeque(closeHandlers);
newCloseHandlers.add(new Runnable() {
@Override
public void run() {
iter.close();
}
});
return new IteratorIntStream(iter, newCloseHandlers);
}
@Override
public Stream flatMapToObj(final CharFunction> mapper) {
final ObjIteratorEx iter = new ObjIteratorEx() {
private Iterator cur = null;
private Stream s = null;
private Runnable closeHandle = null;
@Override
public boolean hasNext() {
while ((cur == null || cur.hasNext() == false) && elements.hasNext()) {
if (closeHandle != null) {
final Runnable tmp = closeHandle;
closeHandle = null;
tmp.run();
}
s = mapper.apply(elements.nextChar());
if (N.notNullOrEmpty(s.closeHandlers)) {
final Deque tmp = s.closeHandlers;
closeHandle = new Runnable() {
@Override
public void run() {
Stream.close(tmp);
}
};
}
cur = s.iterator();
}
return cur != null && cur.hasNext();
}
@Override
public T next() {
if ((cur == null || cur.hasNext() == false) && hasNext() == false) {
throw new NoSuchElementException();
}
return cur.next();
}
@Override
public void close() {
if (closeHandle != null) {
final Runnable tmp = closeHandle;
closeHandle = null;
tmp.run();
}
}
};
final Deque newCloseHandlers = N.isNullOrEmpty(closeHandlers) ? new LocalArrayDeque(1)
: new LocalArrayDeque(closeHandlers);
newCloseHandlers.add(new Runnable() {
@Override
public void run() {
iter.close();
}
});
return new IteratorStream<>(iter, newCloseHandlers);
}
@Override
public Stream splitToList(final int chunkSize) {
checkArgPositive(chunkSize, "chunkSize");
return newStream(new ObjIteratorEx() {
@Override
public boolean hasNext() {
return elements.hasNext();
}
@Override
public CharList next() {
if (hasNext() == false) {
throw new NoSuchElementException();
}
final CharList result = new CharList(chunkSize);
while (result.size() < chunkSize && elements.hasNext()) {
result.add(elements.nextChar());
}
return result;
}
@Override
public long count() {
final long len = elements.count();
return len % chunkSize == 0 ? len / chunkSize : len / chunkSize + 1;
}
@Override
public void skip(long n) {
elements.skip(n > Long.MAX_VALUE / chunkSize ? Long.MAX_VALUE : n * chunkSize);
}
}, false, null);
}
@Override
public Stream splitToList(final CharPredicate predicate) {
return newStream(new ObjIteratorEx() {
private char next;
private boolean hasNext = false;
private boolean preCondition = false;
@Override
public boolean hasNext() {
return hasNext == true || elements.hasNext();
}
@Override
public CharList next() {
if (hasNext() == false) {
throw new NoSuchElementException();
}
final CharList result = new CharList();
if (hasNext == false) {
next = elements.nextChar();
hasNext = true;
}
while (hasNext) {
if (result.size() == 0) {
result.add(next);
preCondition = predicate.test(next);
next = (hasNext = elements.hasNext()) ? elements.nextChar() : 0;
} else if (predicate.test(next) == preCondition) {
result.add(next);
next = (hasNext = elements.hasNext()) ? elements.nextChar() : 0;
} else {
break;
}
}
return result;
}
}, false, null);
}
@Override
public Stream splitAt(final int where) {
checkArgNotNegative(where, "where");
return newStream(new ObjIteratorEx() {
private int cursor = 0;
@Override
public boolean hasNext() {
return cursor < 2;
}
@Override
public CharStream next() {
if (hasNext() == false) {
throw new NoSuchElementException();
}
CharStream result = null;
if (cursor == 0) {
final CharList list = new CharList();
int cnt = 0;
while (cnt++ < where && elements.hasNext()) {
list.add(elements.nextChar());
}
result = new ArrayCharStream(list.array(), 0, list.size(), sorted, null);
} else {
result = new IteratorCharStream(elements, sorted, null);
}
cursor++;
return result;
}
@Override
public long count() {
elements.count();
return 2 - cursor;
}
@Override
public void skip(long n) {
if (n == 0) {
return;
} else if (n == 1) {
if (cursor == 0) {
elements.skip(where);
} else {
elements.skip(Long.MAX_VALUE);
}
} else {
elements.skip(Long.MAX_VALUE);
}
cursor = n >= 2 ? 2 : cursor + (int) n;
}
}, false, null);
}
@Override
public Stream slidingToList(final int windowSize, final int increment) {
checkArgument(windowSize > 0 && increment > 0, "windowSize=%s and increment=%s must be bigger than 0", windowSize, increment);
return newStream(new ObjIteratorEx() {
private CharList prev = null;
private boolean toSkip = false;
@Override
public boolean hasNext() {
if (toSkip) {
int skipNum = increment - windowSize;
while (skipNum-- > 0 && elements.hasNext()) {
elements.nextChar();
}
toSkip = false;
}
return elements.hasNext();
}
@Override
public CharList next() {
if (hasNext() == false) {
throw new NoSuchElementException();
}
CharList result = null;
int cnt = 0;
if (prev != null && increment < windowSize) {
cnt = windowSize - increment;
if (cnt <= 8) {
result = new CharList(windowSize);
for (int i = windowSize - cnt; i < windowSize; i++) {
result.add(prev.get(i));
}
} else {
final char[] dest = new char[windowSize];
N.copy(prev.array(), windowSize - cnt, dest, 0, cnt);
result = CharList.of(dest, cnt);
}
}
if (result == null) {
result = new CharList(windowSize);
}
while (cnt++ < windowSize && elements.hasNext()) {
result.add(elements.nextChar());
}
toSkip = increment > windowSize;
return prev = result;
}
@Override
public long count() {
final int prevSize = increment >= windowSize ? 0 : (prev == null ? 0 : prev.size());
final long len = prevSize + elements.count();
if (len == prevSize) {
return 0;
} else if (len <= windowSize) {
return 1;
} else {
final long rlen = len - windowSize;
return 1 + (rlen % increment == 0 ? rlen / increment : rlen / increment + 1);
}
}
@Override
public void skip(long n) {
if (n == 0) {
return;
}
if (increment >= windowSize) {
elements.skip(n > Long.MAX_VALUE / increment ? Long.MAX_VALUE : n * increment);
} else {
final CharList tmp = new CharList(windowSize);
if (N.isNullOrEmpty(prev)) {
final long m = ((n - 1) > Long.MAX_VALUE / increment ? Long.MAX_VALUE : (n - 1) * increment);
elements.skip(m);
} else {
final long m = (n > Long.MAX_VALUE / increment ? Long.MAX_VALUE : n * increment);
final int prevSize = increment >= windowSize ? 0 : (prev == null ? 0 : prev.size());
if (m < prevSize) {
tmp.addAll(prev.copy((int) m, prevSize));
} else {
elements.skip(m - prevSize);
}
}
int cnt = tmp.size();
while (cnt++ < windowSize && elements.hasNext()) {
tmp.add(elements.nextChar());
}
prev = tmp;
}
}
}, false, null);
}
@Override
public CharStream peek(final CharConsumer action) {
return newStream(new CharIteratorEx() {
@Override
public boolean hasNext() {
return elements.hasNext();
}
@Override
public char nextChar() {
final char next = elements.nextChar();
action.accept(next);
return next;
}
}, sorted);
}
@Override
public CharStream limit(final long maxSize) {
checkArgNotNegative(maxSize, "maxSize");
return newStream(new CharIteratorEx() {
private long cnt = 0;
@Override
public boolean hasNext() {
return cnt < maxSize && elements.hasNext();
}
@Override
public char nextChar() {
if (cnt >= maxSize) {
throw new NoSuchElementException();
}
cnt++;
return elements.nextChar();
}
@Override
public void skip(long n) {
elements.skip(n);
}
}, sorted);
}
@Override
public CharStream skip(final long n) {
checkArgNotNegative(n, "n");
return newStream(new CharIteratorEx() {
private boolean skipped = false;
@Override
public boolean hasNext() {
if (skipped == false) {
skipped = true;
elements.skip(n);
}
return elements.hasNext();
}
@Override
public char nextChar() {
if (skipped == false) {
skipped = true;
elements.skip(n);
}
return elements.nextChar();
}
@Override
public long count() {
if (skipped == false) {
skipped = true;
elements.skip(n);
}
return elements.count();
}
@Override
public void skip(long n2) {
if (skipped == false) {
skipped = true;
elements.skip(n);
}
elements.skip(n2);
}
@Override
public char[] toArray() {
if (skipped == false) {
skipped = true;
elements.skip(n);
}
return elements.toArray();
}
}, sorted);
}
@Override
public void forEach(final Try.CharConsumer action) throws E {
assertNotClosed();
try {
while (elements.hasNext()) {
action.accept(elements.nextChar());
}
} finally {
close();
}
}
@Override
public char[] toArray() {
assertNotClosed();
try {
return elements.toArray();
} finally {
close();
}
}
@Override
public CharList toCharList() {
assertNotClosed();
try {
return elements.toList();
} finally {
close();
}
}
@Override
public List toList() {
return toCollection(Suppliers. ofList());
}
@Override
public Set toSet() {
return toCollection(Suppliers. ofSet());
}
@Override
public > C toCollection(Supplier supplier) {
assertNotClosed();
try {
final C result = supplier.get();
while (elements.hasNext()) {
result.add(elements.nextChar());
}
return result;
} finally {
close();
}
}
@Override
public Multiset toMultiset() {
return toMultiset(Suppliers. ofMultiset());
}
@Override
public Multiset toMultiset(Supplier> supplier) {
assertNotClosed();
try {
final Multiset result = supplier.get();
while (elements.hasNext()) {
result.add(elements.nextChar());
}
return result;
} finally {
close();
}
}
@Override
public LongMultiset toLongMultiset() {
return toLongMultiset(Suppliers. ofLongMultiset());
}
@Override
public LongMultiset toLongMultiset(Supplier> supplier) {
assertNotClosed();
try {
final LongMultiset result = supplier.get();
while (elements.hasNext()) {
result.add(elements.nextChar());
}
return result;
} finally {
close();
}
}
@Override
public > M toMap(CharFunction keyMapper, CharFunction valueMapper, BinaryOperator mergeFunction,
Supplier mapFactory) {
assertNotClosed();
try {
final M result = mapFactory.get();
char next = 0;
while (elements.hasNext()) {
next = elements.nextChar();
Collectors.merge(result, keyMapper.apply(next), valueMapper.apply(next), mergeFunction);
}
return result;
} finally {
close();
}
}
@Override
public > M toMap(final CharFunction keyMapper, final Collector downstream,
final Supplier mapFactory) {
assertNotClosed();
try {
final M result = mapFactory.get();
final Supplier downstreamSupplier = downstream.supplier();
final BiConsumer downstreamAccumulator = downstream.accumulator();
final Map intermediate = (Map) result;
K key = null;
A v = null;
char next = 0;
while (elements.hasNext()) {
next = elements.nextChar();
key = checkArgNotNull(keyMapper.apply(next), "element cannot be mapped to a null key");
if ((v = intermediate.get(key)) == null) {
if ((v = downstreamSupplier.get()) != null) {
intermediate.put(key, v);
}
}
downstreamAccumulator.accept(v, next);
}
final BiFunction function = new BiFunction() {
@Override
public A apply(K k, A v) {
return (A) downstream.finisher().apply(v);
}
};
Collectors.replaceAll(intermediate, function);
return result;
} finally {
close();
}
}
@Override
public char reduce(char identity, CharBinaryOperator op) {
assertNotClosed();
try {
char result = identity;
while (elements.hasNext()) {
result = op.applyAsChar(result, elements.nextChar());
}
return result;
} finally {
close();
}
}
@Override
public OptionalChar reduce(CharBinaryOperator op) {
assertNotClosed();
try {
if (elements.hasNext() == false) {
return OptionalChar.empty();
}
char result = elements.nextChar();
while (elements.hasNext()) {
result = op.applyAsChar(result, elements.nextChar());
}
return OptionalChar.of(result);
} finally {
close();
}
}
@Override
public R collect(Supplier supplier, ObjCharConsumer accumulator, BiConsumer combiner) {
assertNotClosed();
try {
final R result = supplier.get();
while (elements.hasNext()) {
accumulator.accept(result, elements.nextChar());
}
return result;
} finally {
close();
}
}
@Override
public OptionalChar min() {
assertNotClosed();
try {
if (elements.hasNext() == false) {
return OptionalChar.empty();
} else if (sorted) {
return OptionalChar.of(elements.nextChar());
}
char candidate = elements.nextChar();
char next = 0;
while (elements.hasNext()) {
next = elements.nextChar();
if (next < candidate) {
candidate = next;
}
}
return OptionalChar.of(candidate);
} finally {
close();
}
}
@Override
public OptionalChar max() {
assertNotClosed();
try {
if (elements.hasNext() == false) {
return OptionalChar.empty();
} else if (sorted) {
char next = 0;
while (elements.hasNext()) {
next = elements.nextChar();
}
return OptionalChar.of(next);
}
char candidate = elements.nextChar();
char next = 0;
while (elements.hasNext()) {
next = elements.nextChar();
if (next > candidate) {
candidate = next;
}
}
return OptionalChar.of(candidate);
} finally {
close();
}
}
@Override
public OptionalChar kthLargest(int k) {
checkArgPositive(k, "k");
assertNotClosed();
try {
if (elements.hasNext() == false) {
return OptionalChar.empty();
}
final Optional optional = boxed().kthLargest(k, CHAR_COMPARATOR);
return optional.isPresent() ? OptionalChar.of(optional.get()) : OptionalChar.empty();
} finally {
close();
}
}
@Override
public int sum() {
assertNotClosed();
try {
long result = 0;
while (elements.hasNext()) {
result += elements.nextChar();
}
return N.toIntExact(result);
} finally {
close();
}
}
@Override
public OptionalDouble average() {
assertNotClosed();
try {
if (elements.hasNext() == false) {
return OptionalDouble.empty();
}
long sum = 0;
long count = 0;
while (elements.hasNext()) {
sum += elements.nextChar();
count++;
}
return OptionalDouble.of(((double) sum) / count);
} finally {
close();
}
}
@Override
public long count() {
assertNotClosed();
try {
return elements.count();
} finally {
close();
}
}
@Override
public CharSummaryStatistics summarize() {
assertNotClosed();
try {
final CharSummaryStatistics result = new CharSummaryStatistics();
while (elements.hasNext()) {
result.accept(elements.nextChar());
}
return result;
} finally {
close();
}
}
@Override
public boolean anyMatch(final Try.CharPredicate predicate) throws E {
assertNotClosed();
try {
while (elements.hasNext()) {
if (predicate.test(elements.nextChar())) {
return true;
}
}
} finally {
close();
}
return false;
}
@Override
public boolean allMatch(final Try.CharPredicate predicate) throws E {
assertNotClosed();
try {
while (elements.hasNext()) {
if (predicate.test(elements.nextChar()) == false) {
return false;
}
}
} finally {
close();
}
return true;
}
@Override
public boolean noneMatch(final Try.CharPredicate predicate) throws E {
assertNotClosed();
try {
while (elements.hasNext()) {
if (predicate.test(elements.nextChar())) {
return false;
}
}
} finally {
close();
}
return true;
}
@Override
public OptionalChar findFirst(final Try.CharPredicate predicate) throws E {
assertNotClosed();
try {
while (elements.hasNext()) {
char e = elements.nextChar();
if (predicate.test(e)) {
return OptionalChar.of(e);
}
}
} finally {
close();
}
return OptionalChar.empty();
}
@Override
public OptionalChar findLast(final Try.CharPredicate predicate) throws E {
assertNotClosed();
try {
if (elements.hasNext() == false) {
return OptionalChar.empty();
}
boolean hasResult = false;
char e = 0;
char result = 0;
while (elements.hasNext()) {
e = elements.nextChar();
if (predicate.test(e)) {
result = e;
hasResult = true;
}
}
return hasResult ? OptionalChar.of(result) : OptionalChar.empty();
} finally {
close();
}
}
@Override
public IntStream asIntStream() {
return newStream(new IntIteratorEx() {
@Override
public boolean hasNext() {
return elements.hasNext();
}
@Override
public int nextInt() {
return elements.nextChar();
}
@Override
public long count() {
return elements.count();
}
@Override
public void skip(long n) {
elements.skip(n);
}
}, sorted);
}
@Override
public Stream boxed() {
return new IteratorStream<>(iterator(), sorted, sorted ? CHAR_COMPARATOR : null, closeHandlers);
}
@Override
CharIteratorEx iteratorEx() {
return elements;
}
@Override
public CharStream appendIfEmpty(final Supplier supplier) {
if (elements.hasNext() == false) {
return append(supplier.get());
} else {
return this;
}
}
@Override
public CharStream parallel(int maxThreadNum, Splitor splitor) {
return new ParallelIteratorCharStream(elements, sorted, checkMaxThreadNum(maxThreadNum), checkSplitor(splitor), asyncExecutor(), closeHandlers);
}
@Override
public CharStream parallel(final int maxThreadNum, final Executor executor) {
return new ParallelIteratorCharStream(elements, sorted, checkMaxThreadNum(maxThreadNum), splitor(), createAsyncExecutor(executor), closeHandlers);
}
@Override
public CharStream onClose(Runnable closeHandler) {
final Deque newCloseHandlers = new LocalArrayDeque<>(N.isNullOrEmpty(this.closeHandlers) ? 1 : this.closeHandlers.size() + 1);
newCloseHandlers.add(wrapCloseHandlers(closeHandler));
if (N.notNullOrEmpty(this.closeHandlers)) {
newCloseHandlers.addAll(this.closeHandlers);
}
return new IteratorCharStream(elements, sorted, newCloseHandlers);
}
}