DefaultEnumerable.java
/*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to you 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 org.apache.calcite.linq4j;
import org.apache.calcite.linq4j.function.BigDecimalFunction1;
import org.apache.calcite.linq4j.function.DoubleFunction1;
import org.apache.calcite.linq4j.function.EqualityComparer;
import org.apache.calcite.linq4j.function.FloatFunction1;
import org.apache.calcite.linq4j.function.Function0;
import org.apache.calcite.linq4j.function.Function1;
import org.apache.calcite.linq4j.function.Function2;
import org.apache.calcite.linq4j.function.IntegerFunction1;
import org.apache.calcite.linq4j.function.LongFunction1;
import org.apache.calcite.linq4j.function.NullableBigDecimalFunction1;
import org.apache.calcite.linq4j.function.NullableDoubleFunction1;
import org.apache.calcite.linq4j.function.NullableFloatFunction1;
import org.apache.calcite.linq4j.function.NullableIntegerFunction1;
import org.apache.calcite.linq4j.function.NullableLongFunction1;
import org.apache.calcite.linq4j.function.Predicate1;
import org.apache.calcite.linq4j.function.Predicate2;
import org.checkerframework.checker.nullness.qual.Nullable;
import org.checkerframework.checker.nullness.qual.PolyNull;
import java.math.BigDecimal;
import java.util.Collection;
import java.util.Comparator;
import java.util.List;
import java.util.Map;
/**
* Implementation of the {@link org.apache.calcite.linq4j.Enumerable} interface
* that implements the extension methods by calling into the {@link Extensions}
* class.
*
* <p>The are two abstract methods:
* {@link #enumerator()} and {@link #iterator()}.
* The derived class can implement each separately, or implement one in terms of
* the other.
*
* @param <T> Element type
*/
public abstract class DefaultEnumerable<T> implements OrderedEnumerable<T> {
/**
* Derived classes might wish to override this method to return the "outer"
* enumerable.
*/
protected Enumerable<T> getThis() {
return this;
}
/**
* Derived classes might wish to override this method to return the "outer"
* ordered-enumerable.
*/
protected OrderedEnumerable<T> getThisOrdered() {
return this;
}
@Override public <R> @Nullable R foreach(Function1<T, R> func) {
R result = null;
try (Enumerator<T> enumerator = enumerator()) {
while (enumerator.moveNext()) {
T t = enumerator.current();
result = func.apply(t);
}
return result;
}
}
@Override public Queryable<T> asQueryable() {
return Extensions.asQueryable(this);
}
// NOTE: Not part of the Queryable interface.
protected OrderedQueryable<T> asOrderedQueryable() {
return EnumerableDefaults.asOrderedQueryable(this);
}
@Override public @Nullable T aggregate(Function2<@Nullable T, T, T> func) {
return EnumerableDefaults.aggregate(getThis(), func);
}
@Override public <TAccumulate> @PolyNull TAccumulate aggregate(@PolyNull TAccumulate seed,
Function2<@PolyNull TAccumulate, T, @PolyNull TAccumulate> func) {
return EnumerableDefaults.aggregate(getThis(), seed, func);
}
@Override public <TAccumulate, TResult> TResult aggregate(TAccumulate seed,
Function2<TAccumulate, T, TAccumulate> func,
Function1<TAccumulate, TResult> selector) {
return EnumerableDefaults.aggregate(getThis(), seed, func, selector);
}
@Override public boolean all(Predicate1<T> predicate) {
return EnumerableDefaults.all(getThis(), predicate);
}
@Override public boolean any() {
return EnumerableDefaults.any(getThis());
}
@Override public boolean any(Predicate1<T> predicate) {
return EnumerableDefaults.any(getThis(), predicate);
}
@Override public Enumerable<T> asEnumerable() {
return EnumerableDefaults.asEnumerable(getThis());
}
@Override public BigDecimal average(BigDecimalFunction1<T> selector) {
return EnumerableDefaults.average(getThis(), selector);
}
@Override public BigDecimal average(NullableBigDecimalFunction1<T> selector) {
return EnumerableDefaults.average(getThis(), selector);
}
@Override public double average(DoubleFunction1<T> selector) {
return EnumerableDefaults.average(getThis(), selector);
}
@Override public Double average(NullableDoubleFunction1<T> selector) {
return EnumerableDefaults.average(getThis(), selector);
}
@Override public int average(IntegerFunction1<T> selector) {
return EnumerableDefaults.average(getThis(), selector);
}
@Override public Integer average(NullableIntegerFunction1<T> selector) {
return EnumerableDefaults.average(getThis(), selector);
}
@Override public long average(LongFunction1<T> selector) {
return EnumerableDefaults.average(getThis(), selector);
}
@Override public Long average(NullableLongFunction1<T> selector) {
return EnumerableDefaults.average(getThis(), selector);
}
@Override public float average(FloatFunction1<T> selector) {
return EnumerableDefaults.average(getThis(), selector);
}
@Override public Float average(NullableFloatFunction1<T> selector) {
return EnumerableDefaults.average(getThis(), selector);
}
@Override public <T2> Enumerable<T2> cast(Class<T2> clazz) {
return EnumerableDefaults.cast(getThis(), clazz);
}
@Override public Enumerable<T> concat(Enumerable<T> enumerable1) {
return EnumerableDefaults.concat(getThis(), enumerable1);
}
@Override public boolean contains(T element) {
return EnumerableDefaults.contains(getThis(), element);
}
@Override public boolean contains(T element, EqualityComparer<T> comparer) {
return EnumerableDefaults.contains(getThis(), element, comparer);
}
@Override public int count() {
return EnumerableDefaults.count(getThis());
}
@Override public int count(Predicate1<T> predicate) {
return EnumerableDefaults.count(getThis(), predicate);
}
@Override public <TKey> OrderedEnumerable<T> createOrderedEnumerable(
Function1<T, TKey> keySelector, Comparator<TKey> comparator,
boolean descending) {
return EnumerableDefaults.createOrderedEnumerable(getThisOrdered(),
keySelector, comparator, descending);
}
@Override public Enumerable<@Nullable T> defaultIfEmpty() {
return EnumerableDefaults.defaultIfEmpty(getThis());
}
@Override public Enumerable<@PolyNull T> defaultIfEmpty(@PolyNull T value) {
return EnumerableDefaults.defaultIfEmpty(getThis(), value);
}
@Override public Enumerable<T> distinct() {
return EnumerableDefaults.distinct(getThis());
}
@Override public Enumerable<T> distinct(EqualityComparer<T> comparer) {
return EnumerableDefaults.distinct(getThis(), comparer);
}
@Override public T elementAt(int index) {
return EnumerableDefaults.elementAt(getThis(), index);
}
@Override public @Nullable T elementAtOrDefault(int index) {
return EnumerableDefaults.elementAtOrDefault(getThis(), index);
}
@Override public Enumerable<T> except(Enumerable<T> enumerable1) {
return except(enumerable1, false);
}
@Override public Enumerable<T> except(Enumerable<T> enumerable1, boolean all) {
return EnumerableDefaults.except(getThis(), enumerable1, all);
}
@Override public Enumerable<T> except(Enumerable<T> enumerable1,
EqualityComparer<T> comparer) {
return except(enumerable1, comparer, false);
}
@Override public Enumerable<T> except(Enumerable<T> enumerable1,
EqualityComparer<T> comparer, boolean all) {
return EnumerableDefaults.except(getThis(), enumerable1, comparer, all);
}
@Override public T first() {
return EnumerableDefaults.first(getThis());
}
@Override public T first(Predicate1<T> predicate) {
return EnumerableDefaults.first(getThis(), predicate);
}
@Override public @Nullable T firstOrDefault() {
return EnumerableDefaults.firstOrDefault(getThis());
}
@Override public @Nullable T firstOrDefault(Predicate1<T> predicate) {
return EnumerableDefaults.firstOrDefault(getThis(), predicate);
}
@Override public <TKey> Enumerable<Grouping<TKey, T>> groupBy(
Function1<T, TKey> keySelector) {
return EnumerableDefaults.groupBy(getThis(), keySelector);
}
@Override public <TKey> Enumerable<Grouping<TKey, T>> groupBy(
Function1<T, TKey> keySelector, EqualityComparer<TKey> comparer) {
return EnumerableDefaults.groupBy(getThis(), keySelector, comparer);
}
@Override public <TKey, TElement> Enumerable<Grouping<TKey, TElement>> groupBy(
Function1<T, TKey> keySelector, Function1<T, TElement> elementSelector) {
return EnumerableDefaults.groupBy(getThis(), keySelector, elementSelector);
}
@Override public <TKey, TElement> Enumerable<Grouping<TKey, TElement>> groupBy(
Function1<T, TKey> keySelector, Function1<T, TElement> elementSelector,
EqualityComparer<TKey> comparer) {
return EnumerableDefaults.groupBy(getThis(), keySelector, elementSelector,
comparer);
}
@Override public <TKey, TResult> Enumerable<TResult> groupBy(
Function1<T, TKey> keySelector,
Function2<TKey, Enumerable<T>, TResult> elementSelector,
EqualityComparer<TKey> comparer) {
return EnumerableDefaults.groupBy(getThis(), keySelector, elementSelector,
comparer);
}
@Override public <TKey, TResult> Enumerable<TResult> groupBy(
Function1<T, TKey> keySelector,
Function2<TKey, Enumerable<T>, TResult> resultSelector) {
return EnumerableDefaults.groupBy(getThis(), keySelector, resultSelector);
}
@Override public <TKey, TElement, TResult> Enumerable<TResult> groupBy(
Function1<T, TKey> keySelector, Function1<T, TElement> elementSelector,
Function2<TKey, Enumerable<TElement>, TResult> resultSelector) {
return EnumerableDefaults.groupBy(getThis(), keySelector, elementSelector,
resultSelector);
}
@Override public <TKey, TElement, TResult> Enumerable<TResult> groupBy(
Function1<T, TKey> keySelector, Function1<T, TElement> elementSelector,
Function2<TKey, Enumerable<TElement>, TResult> resultSelector,
EqualityComparer<TKey> comparer) {
return EnumerableDefaults.groupBy(getThis(), keySelector, elementSelector,
resultSelector, comparer);
}
@Override public <TKey, TAccumulate, TResult> Enumerable<TResult> groupBy(
Function1<T, TKey> keySelector,
Function0<TAccumulate> accumulatorInitializer,
Function2<TAccumulate, T, TAccumulate> accumulatorAdder,
Function2<TKey, TAccumulate, TResult> resultSelector) {
return EnumerableDefaults.groupBy(getThis(), keySelector,
accumulatorInitializer, accumulatorAdder, resultSelector);
}
@Override public <TKey, TAccumulate, TResult> Enumerable<TResult> groupBy(
Function1<T, TKey> keySelector,
Function0<TAccumulate> accumulatorInitializer,
Function2<TAccumulate, T, TAccumulate> accumulatorAdder,
Function2<TKey, TAccumulate, TResult> resultSelector,
EqualityComparer<TKey> comparer) {
return EnumerableDefaults.groupBy(getThis(), keySelector,
accumulatorInitializer, accumulatorAdder, resultSelector, comparer);
}
@Override public <TKey, TAccumulate, TResult> Enumerable<TResult> sortedGroupBy(
Function1<T, TKey> keySelector,
Function0<TAccumulate> accumulatorInitializer,
Function2<TAccumulate, T, TAccumulate> accumulatorAdder,
Function2<TKey, TAccumulate, TResult> resultSelector,
Comparator<TKey> comparator) {
return EnumerableDefaults.sortedGroupBy(
getThis(), keySelector, accumulatorInitializer,
accumulatorAdder, resultSelector, comparator);
}
@Override public <TInner, TKey, TResult> Enumerable<TResult> groupJoin(
Enumerable<TInner> inner, Function1<T, TKey> outerKeySelector,
Function1<TInner, TKey> innerKeySelector,
Function2<T, Enumerable<TInner>, TResult> resultSelector) {
return EnumerableDefaults.groupJoin(getThis(), inner, outerKeySelector,
innerKeySelector, resultSelector);
}
@Override public <TInner, TKey, TResult> Enumerable<TResult> groupJoin(
Enumerable<TInner> inner, Function1<T, TKey> outerKeySelector,
Function1<TInner, TKey> innerKeySelector,
Function2<T, Enumerable<TInner>, TResult> resultSelector,
EqualityComparer<TKey> comparer) {
return EnumerableDefaults.groupJoin(getThis(), inner, outerKeySelector,
innerKeySelector, resultSelector, comparer);
}
@Override public Enumerable<T> intersect(Enumerable<T> enumerable1) {
return intersect(enumerable1, false);
}
@Override public Enumerable<T> intersect(Enumerable<T> enumerable1, boolean all) {
return EnumerableDefaults.intersect(getThis(), enumerable1, all);
}
@Override public Enumerable<T> intersect(Enumerable<T> enumerable1,
EqualityComparer<T> comparer) {
return intersect(enumerable1, comparer, false);
}
@Override public Enumerable<T> intersect(Enumerable<T> enumerable1,
EqualityComparer<T> comparer, boolean all) {
return EnumerableDefaults.intersect(getThis(), enumerable1, comparer, all);
}
@Override public <C extends Collection<? super T>> C into(C sink) {
return EnumerableDefaults.into(getThis(), sink);
}
@Override public <C extends Collection<? super T>> C removeAll(C sink) {
return EnumerableDefaults.remove(getThis(), sink);
}
@Override public <TInner, TKey, TResult> Enumerable<TResult> hashJoin(
Enumerable<TInner> inner, Function1<T, TKey> outerKeySelector,
Function1<TInner, TKey> innerKeySelector,
Function2<T, TInner, TResult> resultSelector) {
return EnumerableDefaults.hashJoin(getThis(), inner, outerKeySelector,
innerKeySelector, resultSelector);
}
@Override public <TInner, TKey, TResult> Enumerable<TResult> hashJoin(
Enumerable<TInner> inner, Function1<T, TKey> outerKeySelector,
Function1<TInner, TKey> innerKeySelector,
Function2<T, TInner, TResult> resultSelector,
EqualityComparer<TKey> comparer) {
return EnumerableDefaults.hashJoin(getThis(), inner, outerKeySelector,
innerKeySelector, resultSelector, comparer);
}
@Override public <TInner, TKey, TResult> Enumerable<TResult> asofJoin(
Enumerable<TInner> inner,
Function1<T, TKey> outerKeySelector,
Function1<TInner, TKey> innerKeySelector,
Function2<T, @Nullable TInner, TResult> resultSelector,
Predicate2<T, TInner> matchComparator,
Comparator<TInner> timestampComparator,
boolean generateNullsOnRight) {
return EnumerableDefaults.asofJoin(getThis(), inner, outerKeySelector,
innerKeySelector, resultSelector, matchComparator,
timestampComparator, generateNullsOnRight);
}
@Override public <TInner, TKey, TResult> Enumerable<TResult> hashJoin(
Enumerable<TInner> inner, Function1<T, TKey> outerKeySelector,
Function1<TInner, TKey> innerKeySelector,
Function2<T, TInner, TResult> resultSelector,
@Nullable EqualityComparer<TKey> comparer,
boolean generateNullsOnLeft, boolean generateNullsOnRight) {
return EnumerableDefaults.hashJoin(getThis(), inner, outerKeySelector,
innerKeySelector, resultSelector, comparer, generateNullsOnLeft,
generateNullsOnRight);
}
@Override public <TInner, TKey, TResult> Enumerable<TResult> hashJoin(
Enumerable<TInner> inner, Function1<T, TKey> outerKeySelector,
Function1<TInner, TKey> innerKeySelector,
Function2<T, TInner, TResult> resultSelector,
EqualityComparer<TKey> comparer,
boolean generateNullsOnLeft, boolean generateNullsOnRight,
@Nullable Predicate2<T, TInner> predicate) {
return EnumerableDefaults.hashJoin(getThis(), inner, outerKeySelector,
innerKeySelector, resultSelector, comparer, generateNullsOnLeft,
generateNullsOnRight, predicate);
}
@Override public <TInner, TResult> Enumerable<TResult> correlateJoin(
JoinType joinType, Function1<T, Enumerable<TInner>> inner,
Function2<T, TInner, TResult> resultSelector) {
return EnumerableDefaults.correlateJoin(joinType, getThis(), inner,
resultSelector);
}
@Override public T last() {
return EnumerableDefaults.last(getThis());
}
@Override public T last(Predicate1<T> predicate) {
return EnumerableDefaults.last(getThis(), predicate);
}
@Override public @Nullable T lastOrDefault() {
return EnumerableDefaults.lastOrDefault(getThis());
}
@Override public @Nullable T lastOrDefault(Predicate1<T> predicate) {
return EnumerableDefaults.lastOrDefault(getThis(), predicate);
}
@Override public long longCount() {
return EnumerableDefaults.longCount(getThis());
}
@Override public long longCount(Predicate1<T> predicate) {
return EnumerableDefaults.longCount(getThis(), predicate);
}
@SuppressWarnings("unchecked")
@Override public @Nullable T max() {
return (@Nullable T) EnumerableDefaults.max((Enumerable) getThis());
}
@Override public @Nullable BigDecimal max(BigDecimalFunction1<T> selector) {
return EnumerableDefaults.max(getThis(), selector);
}
@Override public @Nullable BigDecimal max(NullableBigDecimalFunction1<T> selector) {
return EnumerableDefaults.max(getThis(), selector);
}
@Override public double max(DoubleFunction1<T> selector) {
return EnumerableDefaults.max(getThis(), selector);
}
@Override public @Nullable Double max(NullableDoubleFunction1<T> selector) {
return EnumerableDefaults.max(getThis(), selector);
}
@Override public int max(IntegerFunction1<T> selector) {
return EnumerableDefaults.max(getThis(), selector);
}
@Override public @Nullable Integer max(NullableIntegerFunction1<T> selector) {
return EnumerableDefaults.max(getThis(), selector);
}
@Override public long max(LongFunction1<T> selector) {
return EnumerableDefaults.max(getThis(), selector);
}
@Override public @Nullable Long max(NullableLongFunction1<T> selector) {
return EnumerableDefaults.max(getThis(), selector);
}
@Override public float max(FloatFunction1<T> selector) {
return EnumerableDefaults.max(getThis(), selector);
}
@Override public @Nullable Float max(NullableFloatFunction1<T> selector) {
return EnumerableDefaults.max(getThis(), selector);
}
@Override public <TResult extends Comparable<TResult>> @Nullable TResult max(
Function1<T, TResult> selector) {
return EnumerableDefaults.max(getThis(), selector);
}
@SuppressWarnings("unchecked")
@Override public @Nullable T min() {
return (@Nullable T) EnumerableDefaults.min((Enumerable) getThis());
}
@Override public @Nullable BigDecimal min(BigDecimalFunction1<T> selector) {
return EnumerableDefaults.min(getThis(), selector);
}
@Override public @Nullable BigDecimal min(NullableBigDecimalFunction1<T> selector) {
return EnumerableDefaults.min(getThis(), selector);
}
@Override public double min(DoubleFunction1<T> selector) {
return EnumerableDefaults.min(getThis(), selector);
}
@Override public @Nullable Double min(NullableDoubleFunction1<T> selector) {
return EnumerableDefaults.min(getThis(), selector);
}
@Override public int min(IntegerFunction1<T> selector) {
return EnumerableDefaults.min(getThis(), selector);
}
@Override public @Nullable Integer min(NullableIntegerFunction1<T> selector) {
return EnumerableDefaults.min(getThis(), selector);
}
@Override public long min(LongFunction1<T> selector) {
return EnumerableDefaults.min(getThis(), selector);
}
@Override public @Nullable Long min(NullableLongFunction1<T> selector) {
return EnumerableDefaults.min(getThis(), selector);
}
@Override public float min(FloatFunction1<T> selector) {
return EnumerableDefaults.min(getThis(), selector);
}
@Override public @Nullable Float min(NullableFloatFunction1<T> selector) {
return EnumerableDefaults.min(getThis(), selector);
}
@Override public <TResult extends Comparable<TResult>> @Nullable TResult min(
Function1<T, TResult> selector) {
return EnumerableDefaults.min(getThis(), selector);
}
@Override public <TResult> Enumerable<TResult> ofType(Class<TResult> clazz) {
return EnumerableDefaults.ofType(getThis(), clazz);
}
@Override public <TKey extends Comparable> Enumerable<T> orderBy(
Function1<T, TKey> keySelector) {
return EnumerableDefaults.orderBy(getThis(), keySelector);
}
@Override public <TKey> Enumerable<T> orderBy(Function1<T, TKey> keySelector,
Comparator<TKey> comparator) {
return EnumerableDefaults.orderBy(getThis(), keySelector, comparator);
}
@Override public <TKey extends Comparable> Enumerable<T> orderByDescending(
Function1<T, TKey> keySelector) {
return EnumerableDefaults.orderByDescending(getThis(), keySelector);
}
@Override public <TKey> Enumerable<T> orderByDescending(Function1<T, TKey> keySelector,
Comparator<TKey> comparator) {
return EnumerableDefaults.orderByDescending(getThis(), keySelector,
comparator);
}
@Override public Enumerable<T> reverse() {
return EnumerableDefaults.reverse(getThis());
}
@Override public <TResult> Enumerable<TResult> select(Function1<T, TResult> selector) {
return EnumerableDefaults.select(getThis(), selector);
}
@Override public <TResult> Enumerable<TResult> select(
Function2<T, Integer, TResult> selector) {
return EnumerableDefaults.select(getThis(), selector);
}
@Override public <TResult> Enumerable<TResult> selectMany(
Function1<T, Enumerable<TResult>> selector) {
return EnumerableDefaults.selectMany(getThis(), selector);
}
@Override public <TResult> Enumerable<TResult> selectMany(
Function2<T, Integer, Enumerable<TResult>> selector) {
return EnumerableDefaults.selectMany(getThis(), selector);
}
@Override public <TCollection, TResult> Enumerable<TResult> selectMany(
Function2<T, Integer, Enumerable<TCollection>> collectionSelector,
Function2<T, TCollection, TResult> resultSelector) {
return EnumerableDefaults.selectMany(getThis(), collectionSelector,
resultSelector);
}
@Override public <TCollection, TResult> Enumerable<TResult> selectMany(
Function1<T, Enumerable<TCollection>> collectionSelector,
Function2<T, TCollection, TResult> resultSelector) {
return EnumerableDefaults.selectMany(getThis(), collectionSelector,
resultSelector);
}
@Override public boolean sequenceEqual(Enumerable<T> enumerable1) {
return EnumerableDefaults.sequenceEqual(getThis(), enumerable1);
}
@Override public boolean sequenceEqual(Enumerable<T> enumerable1,
EqualityComparer<T> comparer) {
return EnumerableDefaults.sequenceEqual(getThis(), enumerable1, comparer);
}
@Override public T single() {
return EnumerableDefaults.single(getThis());
}
@Override public T single(Predicate1<T> predicate) {
return EnumerableDefaults.single(getThis(), predicate);
}
@Override public @Nullable T singleOrDefault() {
return EnumerableDefaults.singleOrDefault(getThis());
}
@Override public @Nullable T singleOrDefault(Predicate1<T> predicate) {
return EnumerableDefaults.singleOrDefault(getThis(), predicate);
}
@Override public Enumerable<T> skip(int count) {
return EnumerableDefaults.skip(getThis(), count);
}
@Override public Enumerable<T> skipWhile(Predicate1<T> predicate) {
return EnumerableDefaults.skipWhile(getThis(), predicate);
}
@Override public Enumerable<T> skipWhile(Predicate2<T, Integer> predicate) {
return EnumerableDefaults.skipWhile(getThis(), predicate);
}
@Override public BigDecimal sum(BigDecimalFunction1<T> selector) {
return EnumerableDefaults.sum(getThis(), selector);
}
@Override public BigDecimal sum(NullableBigDecimalFunction1<T> selector) {
return EnumerableDefaults.sum(getThis(), selector);
}
@Override public double sum(DoubleFunction1<T> selector) {
return EnumerableDefaults.sum(getThis(), selector);
}
@Override public Double sum(NullableDoubleFunction1<T> selector) {
return EnumerableDefaults.sum(getThis(), selector);
}
@Override public int sum(IntegerFunction1<T> selector) {
return EnumerableDefaults.sum(getThis(), selector);
}
@Override public Integer sum(NullableIntegerFunction1<T> selector) {
return EnumerableDefaults.sum(getThis(), selector);
}
@Override public long sum(LongFunction1<T> selector) {
return EnumerableDefaults.sum(getThis(), selector);
}
@Override public Long sum(NullableLongFunction1<T> selector) {
return EnumerableDefaults.sum(getThis(), selector);
}
@Override public float sum(FloatFunction1<T> selector) {
return EnumerableDefaults.sum(getThis(), selector);
}
@Override public Float sum(NullableFloatFunction1<T> selector) {
return EnumerableDefaults.sum(getThis(), selector);
}
@Override public Enumerable<T> take(int count) {
return EnumerableDefaults.take(getThis(), count);
}
@Override public Enumerable<T> takeWhile(Predicate1<T> predicate) {
return EnumerableDefaults.takeWhile(getThis(), predicate);
}
@Override public Enumerable<T> takeWhile(Predicate2<T, Integer> predicate) {
return EnumerableDefaults.takeWhile(getThis(), predicate);
}
@Override public <TKey extends Comparable<TKey>> OrderedEnumerable<T> thenBy(
Function1<T, TKey> keySelector) {
return EnumerableDefaults.thenBy(getThisOrdered(), keySelector);
}
@Override public <TKey> OrderedEnumerable<T> thenBy(Function1<T, TKey> keySelector,
Comparator<TKey> comparator) {
return EnumerableDefaults.thenByDescending(getThisOrdered(), keySelector,
comparator);
}
@Override public <TKey extends Comparable<TKey>> OrderedEnumerable<T> thenByDescending(
Function1<T, TKey> keySelector) {
return EnumerableDefaults.thenByDescending(getThisOrdered(), keySelector);
}
@Override public <TKey> OrderedEnumerable<T> thenByDescending(
Function1<T, TKey> keySelector, Comparator<TKey> comparator) {
return EnumerableDefaults.thenBy(getThisOrdered(), keySelector, comparator);
}
@Override public <TKey> Map<TKey, T> toMap(Function1<T, TKey> keySelector) {
return EnumerableDefaults.toMap(getThis(), keySelector);
}
@Override public <TKey> Map<TKey, T> toMap(Function1<T, TKey> keySelector,
EqualityComparer<TKey> comparer) {
return EnumerableDefaults.toMap(getThis(), keySelector, comparer);
}
@Override public <TKey, TElement> Map<TKey, TElement> toMap(
Function1<T, TKey> keySelector, Function1<T, TElement> elementSelector) {
return EnumerableDefaults.toMap(getThis(), keySelector, elementSelector);
}
@Override public <TKey, TElement> Map<TKey, TElement> toMap(
Function1<T, TKey> keySelector, Function1<T, TElement> elementSelector,
EqualityComparer<TKey> comparer) {
return EnumerableDefaults.toMap(getThis(), keySelector, elementSelector,
comparer);
}
@Override public List<T> toList() {
return EnumerableDefaults.toList(getThis());
}
@Override public <TKey> Lookup<TKey, T> toLookup(Function1<T, TKey> keySelector) {
return EnumerableDefaults.toLookup(getThis(), keySelector);
}
@Override public <TKey> Lookup<TKey, T> toLookup(Function1<T, TKey> keySelector,
EqualityComparer<TKey> comparer) {
return EnumerableDefaults.toLookup(getThis(), keySelector, comparer);
}
@Override public <TKey, TElement> Lookup<TKey, TElement> toLookup(
Function1<T, TKey> keySelector, Function1<T, TElement> elementSelector) {
return EnumerableDefaults.toLookup(getThis(), keySelector, elementSelector);
}
@Override public <TKey, TElement> Lookup<TKey, TElement> toLookup(
Function1<T, TKey> keySelector, Function1<T, TElement> elementSelector,
EqualityComparer<TKey> comparer) {
return EnumerableDefaults.toLookup(getThis(), keySelector, elementSelector,
comparer);
}
@Override public Enumerable<T> union(Enumerable<T> source1) {
return EnumerableDefaults.union(getThis(), source1);
}
@Override public Enumerable<T> union(Enumerable<T> source1,
EqualityComparer<T> comparer) {
return EnumerableDefaults.union(getThis(), source1, comparer);
}
@Override public Enumerable<T> where(Predicate1<T> predicate) {
return EnumerableDefaults.where(getThis(), predicate);
}
@Override public Enumerable<T> where(Predicate2<T, Integer> predicate) {
return EnumerableDefaults.where(getThis(), predicate);
}
@Override public <T1, TResult> Enumerable<TResult> zip(Enumerable<T1> source1,
Function2<T, T1, TResult> resultSelector) {
return EnumerableDefaults.zip(getThis(), source1, resultSelector);
}
}