-
IntInterval
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serialVersionUID: long
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from: int
-
to: int
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step: int
-
size: int
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IntInterval(int, int, int): void
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from(int): IntInterval
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to(int): IntInterval
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by(int): IntInterval
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zero(): IntInterval
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oneTo(int): IntInterval
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oneToBy(int, int): IntInterval
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zeroTo(int): IntInterval
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zeroToBy(int, int): IntInterval
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fromTo(int, int): IntInterval
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evensFromTo(int, int): IntInterval
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oddsFromTo(int, int): IntInterval
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fromToBy(int, int, int): IntInterval
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containsAll(int[]): boolean
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containsAll(IntIterable): boolean
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containsNone(int[]): boolean
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contains(int): boolean
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forEachWithIndex(IntIntProcedure): void
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forEach(IntProcedure): void
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goForward(): boolean
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each(IntProcedure): void
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count(IntPredicate): int
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anySatisfy(IntPredicate): boolean
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allSatisfy(IntPredicate): boolean
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noneSatisfy(IntPredicate): boolean
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equals(Object): boolean
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hashCode(): int
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toReversed(): IntInterval
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distinct(): ImmutableIntList
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subList(int, int): ImmutableIntList
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size(): int
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dotProduct(IntList): long
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isEmpty(): boolean
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notEmpty(): boolean
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makeString(): String
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makeString(String): String
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makeString(String, String, String): String
-
appendString(Appendable): void
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appendString(Appendable, String): void
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appendString(Appendable, String, String, String): void
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toArray(): int[]
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toArray(int[]): int[]
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injectInto(Object, ObjectIntToObjectFunction<Object, Object>): Object
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injectIntoWithIndex(Object, ObjectIntIntToObjectFunction<Object, Object>): Object
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chunk(int): RichIterable<IntIterable>
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toString(): String
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intIterator(): IntIterator
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getFirst(): int
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getLast(): int
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get(int): int
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checkBounds(String, int): void
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indexOf(int): int
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lastIndexOf(int): int
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select(IntPredicate): ImmutableIntList
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reject(IntPredicate): ImmutableIntList
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detectIfNone(IntPredicate, int): int
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collect(IntToObjectFunction<Object>): ImmutableList<Object>
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asReversed(): LazyIntIterable
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sum(): long
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max(): int
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min(): int
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minIfEmpty(int): int
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maxIfEmpty(int): int
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average(): double
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median(): double
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binarySearch(int): int
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toSortedArray(): int[]
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toList(): MutableIntList
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toSortedList(): MutableIntList
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toSet(): MutableIntSet
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toBag(): MutableIntBag
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asLazy(): LazyIntIterable
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toImmutable(): ImmutableIntList
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newWith(int): ImmutableIntList
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newWithout(int): ImmutableIntList
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newWithAll(IntIterable): ImmutableIntList
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newWithoutAll(IntIterable): ImmutableIntList
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zipInt(IntIterable): ImmutableList<IntIntPair>
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zip(Iterable<Object>): ImmutableList<IntObjectPair<Object>>
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spliterator(): OfInt
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IntIntervalIterator
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IntIntervalSpliterator
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readObject(ObjectInputStream): void
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https://github.com/eclipse/eclipse-collections/eclipse-collections: Eclipse Collections is a collections framework for Java. It has JDK-compatible List, Set and Map
implementations with a rich API and set of utility classes that work with any JDK compatible Collections,
Arrays, Maps or Strings. The iteration protocol was inspired by the Smalltalk collection framework.
- Craig P. Motlin
- Donald Raab
- Mohammad A. Rezaei
- Hiroshi Ito
- Nikhil J. Nanivadekar
/*
* Copyright (c) 2019 Goldman Sachs and others.
* All rights reserved. This program and the accompanying materials
* are made available under the terms of the Eclipse Public License v1.0
* and Eclipse Distribution License v. 1.0 which accompany this distribution.
* The Eclipse Public License is available at http://www.eclipse.org/legal/epl-v10.html
* and the Eclipse Distribution License is available at
* http://www.eclipse.org/org/documents/edl-v10.php.
*/
package org.eclipse.collections.impl.list.primitive;
import java.io.IOException;
import java.io.ObjectInputStream;
import java.io.Serializable;
import java.util.Arrays;
import java.util.Comparator;
import java.util.Iterator;
import java.util.NoSuchElementException;
import java.util.Spliterator;
import java.util.function.IntConsumer;
import org.eclipse.collections.api.IntIterable;
import org.eclipse.collections.api.LazyIntIterable;
import org.eclipse.collections.api.RichIterable;
import org.eclipse.collections.api.bag.primitive.MutableIntBag;
import org.eclipse.collections.api.block.function.primitive.IntToObjectFunction;
import org.eclipse.collections.api.block.function.primitive.ObjectIntIntToObjectFunction;
import org.eclipse.collections.api.block.function.primitive.ObjectIntToObjectFunction;
import org.eclipse.collections.api.block.predicate.primitive.IntPredicate;
import org.eclipse.collections.api.block.procedure.primitive.IntIntProcedure;
import org.eclipse.collections.api.block.procedure.primitive.IntProcedure;
import org.eclipse.collections.api.factory.Lists;
import org.eclipse.collections.api.iterator.IntIterator;
import org.eclipse.collections.api.list.ImmutableList;
import org.eclipse.collections.api.list.MutableList;
import org.eclipse.collections.api.list.primitive.ImmutableIntList;
import org.eclipse.collections.api.list.primitive.IntList;
import org.eclipse.collections.api.list.primitive.MutableIntList;
import org.eclipse.collections.api.set.primitive.MutableIntSet;
import org.eclipse.collections.api.tuple.primitive.IntIntPair;
import org.eclipse.collections.api.tuple.primitive.IntObjectPair;
import org.eclipse.collections.impl.bag.mutable.primitive.IntHashBag;
import org.eclipse.collections.impl.block.factory.primitive.IntPredicates;
import org.eclipse.collections.impl.factory.primitive.IntLists;
import org.eclipse.collections.impl.lazy.primitive.CollectIntToObjectIterable;
import org.eclipse.collections.impl.lazy.primitive.LazyIntIterableAdapter;
import org.eclipse.collections.impl.lazy.primitive.ReverseIntIterable;
import org.eclipse.collections.impl.lazy.primitive.SelectIntIterable;
import org.eclipse.collections.impl.list.IntervalUtils;
import org.eclipse.collections.impl.list.mutable.primitive.IntArrayList;
import org.eclipse.collections.impl.set.mutable.primitive.IntHashSet;
import org.eclipse.collections.impl.tuple.primitive.PrimitiveTuples;
import org.eclipse.collections.impl.utility.Iterate;
An IntInterval is a range of ints that may be iterated over using a step value.
/**
* An IntInterval is a range of ints that may be iterated over using a step value.
*/
public final class IntInterval
implements ImmutableIntList, Serializable
{
private static final long serialVersionUID = 1L;
private final int from;
private final int to;
private final int step;
private transient int size;
private IntInterval(int from, int to, int step)
{
this.from = from;
this.to = to;
this.step = step;
this.size = IntervalUtils.intSize(this.from, this.to, this.step);
}
This static from method allows IntInterval to act as a fluent builder for itself. It works in conjunction with the instance methods to(int) and by(int).
Usage Example:
IntInterval interval1 = IntInterval.from(1).to(5); // results in: 1, 2, 3, 4, 5.
IntInterval interval2 = IntInterval.from(1).to(10).by(2); // results in: 1, 3, 5, 7, 9.
/**
* This static {@code from} method allows IntInterval to act as a fluent builder for itself.
* It works in conjunction with the instance methods {@link #to(int)} and {@link #by(int)}.
* <p>
* Usage Example:
* <pre>
* IntInterval interval1 = IntInterval.from(1).to(5); // results in: 1, 2, 3, 4, 5.
* IntInterval interval2 = IntInterval.from(1).to(10).by(2); // results in: 1, 3, 5, 7, 9.
* </pre>
*/
public static IntInterval from(int newFrom)
{
return IntInterval.fromToBy(newFrom, newFrom, 1);
}
This instance to method allows IntInterval to act as a fluent builder for itself. It works in conjunction with the static method from(int) and instance method by(int).
Usage Example:
IntInterval interval1 = IntInterval.from(1).to(5); // results in: 1, 2, 3, 4, 5.
IntInterval interval2 = IntInterval.from(1).to(10).by(2); // results in: 1, 3, 5, 7, 9.
/**
* This instance {@code to} method allows IntInterval to act as a fluent builder for itself.
* It works in conjunction with the static method {@link #from(int)} and instance method {@link #by(int)}.
* <p>
* Usage Example:
* <pre>
* IntInterval interval1 = IntInterval.from(1).to(5); // results in: 1, 2, 3, 4, 5.
* IntInterval interval2 = IntInterval.from(1).to(10).by(2); // results in: 1, 3, 5, 7, 9.
* </pre>
*/
public IntInterval to(int newTo)
{
return IntInterval.fromToBy(this.from, newTo, this.step);
}
This instance by method allows IntInterval to act as a fluent builder for itself. It works in conjunction with the static method from(int) and instance method to(int).
Usage Example:
IntInterval interval1 = IntInterval.from(1).to(5); // results in: 1, 2, 3, 4, 5.
IntInterval interval2 = IntInterval.from(1).to(10).by(2); // results in: 1, 3, 5, 7, 9.
/**
* This instance {@code by} method allows IntInterval to act as a fluent builder for itself.
* It works in conjunction with the static method {@link #from(int)} and instance method {@link #to(int)}.
* <p>
* Usage Example:
* <pre>
* IntInterval interval1 = IntInterval.from(1).to(5); // results in: 1, 2, 3, 4, 5.
* IntInterval interval2 = IntInterval.from(1).to(10).by(2); // results in: 1, 3, 5, 7, 9.
* </pre>
*/
public IntInterval by(int newStep)
{
return IntInterval.fromToBy(this.from, this.to, newStep);
}
Returns an IntInterval starting at zero.
Usage Example:
IntInterval interval1 = IntInterval.zero().to(5); // results in: 0, 1, 2, 3, 4, 5.
IntInterval interval2 = IntInterval.zero().to(10).by(2); // results in: 0, 2, 4, 6, 8, 10.
/**
* Returns an IntInterval starting at zero.
* <p>
* Usage Example:
* <pre>
* IntInterval interval1 = IntInterval.zero().to(5); // results in: 0, 1, 2, 3, 4, 5.
* IntInterval interval2 = IntInterval.zero().to(10).by(2); // results in: 0, 2, 4, 6, 8, 10.
* </pre>
*/
public static IntInterval zero()
{
return IntInterval.from(0);
}
Returns an IntInterval starting from 1 to the specified count value with a step value of 1.
/**
* Returns an IntInterval starting from 1 to the specified count value with a step value of 1.
*/
public static IntInterval oneTo(int count)
{
return IntInterval.oneToBy(count, 1);
}
Returns an IntInterval starting from 1 to the specified count value with a step value of step.
/**
* Returns an IntInterval starting from 1 to the specified count value with a step value of step.
*/
public static IntInterval oneToBy(int count, int step)
{
if (count < 1)
{
throw new IllegalArgumentException("Only positive ranges allowed using oneToBy");
}
return IntInterval.fromToBy(1, count, step);
}
Returns an IntInterval starting from 0 to the specified count value with a step value of 1.
/**
* Returns an IntInterval starting from 0 to the specified count value with a step value of 1.
*/
public static IntInterval zeroTo(int count)
{
return IntInterval.zeroToBy(count, 1);
}
Returns an IntInterval starting from 0 to the specified count value with a step value of step.
/**
* Returns an IntInterval starting from 0 to the specified count value with a step value of step.
*/
public static IntInterval zeroToBy(int count, int step)
{
return IntInterval.fromToBy(0, count, step);
}
Returns an IntInterval starting from the value from to the specified value to with a step value of 1.
/**
* Returns an IntInterval starting from the value from to the specified value to with a step value of 1.
*/
public static IntInterval fromTo(int from, int to)
{
if (from <= to)
{
return IntInterval.fromToBy(from, to, 1);
}
return IntInterval.fromToBy(from, to, -1);
}
Returns an IntInterval representing the even values from the value from to the value to.
/**
* Returns an IntInterval representing the even values from the value from to the value to.
*/
public static IntInterval evensFromTo(int from, int to)
{
if (from % 2 != 0)
{
if (from < to)
{
from++;
}
else
{
from--;
}
}
if (to % 2 != 0)
{
if (to > from)
{
to--;
}
else
{
to++;
}
}
return IntInterval.fromToBy(from, to, to > from ? 2 : -2);
}
Returns an IntInterval representing the odd values from the value from to the value to.
/**
* Returns an IntInterval representing the odd values from the value from to the value to.
*/
public static IntInterval oddsFromTo(int from, int to)
{
if (from % 2 == 0)
{
if (from < to)
{
from++;
}
else
{
from--;
}
}
if (to % 2 == 0)
{
if (to > from)
{
to--;
}
else
{
to++;
}
}
return IntInterval.fromToBy(from, to, to > from ? 2 : -2);
}
Returns an IntInterval for the range of integers inclusively between from and to with the specified
stepBy value.
/**
* Returns an IntInterval for the range of integers inclusively between from and to with the specified
* stepBy value.
*/
public static IntInterval fromToBy(int from, int to, int stepBy)
{
IntervalUtils.checkArguments(from, to, stepBy);
return new IntInterval(from, to, stepBy);
}
Returns true if the IntInterval contains all of the specified int values.
/**
* Returns true if the IntInterval contains all of the specified int values.
*/
@Override
public boolean containsAll(int... values)
{
for (int value : values)
{
if (!this.contains(value))
{
return false;
}
}
return true;
}
@Override
public boolean containsAll(IntIterable source)
{
for (IntIterator iterator = source.intIterator(); iterator.hasNext(); )
{
if (!this.contains(iterator.next()))
{
return false;
}
}
return true;
}
Returns true if the IntInterval contains none of the specified int values.
/**
* Returns true if the IntInterval contains none of the specified int values.
*/
public boolean containsNone(int... values)
{
for (int value : values)
{
if (this.contains(value))
{
return false;
}
}
return true;
}
Returns true if the IntInterval contains the specified int value.
/**
* Returns true if the IntInterval contains the specified int value.
*/
@Override
public boolean contains(int value)
{
return IntervalUtils.contains(value, this.from, this.to, this.step);
}
@Override
public void forEachWithIndex(IntIntProcedure procedure)
{
int index = 0;
if (this.goForward())
{
for (long i = this.from; i <= this.to; i += this.step)
{
procedure.value((int) i, index++);
}
}
else
{
for (long i = this.from; i >= this.to; i += this.step)
{
procedure.value((int) i, index++);
}
}
}
@Override
public void forEach(IntProcedure procedure)
{
this.each(procedure);
}
private boolean goForward()
{
return this.from <= this.to && this.step > 0;
}
Since: 7.0.
/**
* @since 7.0.
*/
@Override
public void each(IntProcedure procedure)
{
if (this.goForward())
{
for (long i = this.from; i <= this.to; i += this.step)
{
procedure.value((int) i);
}
}
else
{
for (long i = this.from; i >= this.to; i += this.step)
{
procedure.value((int) i);
}
}
}
@Override
public int count(IntPredicate predicate)
{
int count = 0;
for (int i = 0; i < this.size(); i++)
{
if (predicate.accept(this.get(i)))
{
count++;
}
}
return count;
}
@Override
public boolean anySatisfy(IntPredicate predicate)
{
for (int i = 0; i < this.size(); i++)
{
if (predicate.accept(this.get(i)))
{
return true;
}
}
return false;
}
@Override
public boolean allSatisfy(IntPredicate predicate)
{
for (int i = 0; i < this.size(); i++)
{
if (!predicate.accept(this.get(i)))
{
return false;
}
}
return true;
}
@Override
public boolean noneSatisfy(IntPredicate predicate)
{
for (int i = 0; i < this.size(); i++)
{
if (predicate.accept(this.get(i)))
{
return false;
}
}
return true;
}
@Override
public boolean equals(Object otherList)
{
if (otherList == this)
{
return true;
}
if (!(otherList instanceof IntList))
{
return false;
}
IntList list = (IntList) otherList;
if (this.size() != list.size())
{
return false;
}
if (this.from == this.to)
{
return this.from == list.get(0);
}
if (this.from < this.to)
{
int listIndex = 0;
for (long i = this.from; i <= this.to; i += this.step)
{
if (i != list.get(listIndex++))
{
return false;
}
}
}
else
{
int listIndex = 0;
for (long i = this.from; i >= this.to; i += this.step)
{
if (i != list.get(listIndex++))
{
return false;
}
}
}
return true;
}
@Override
public int hashCode()
{
int hashCode = 1;
if (this.from == this.to)
{
hashCode = 31 + this.from;
}
else if (this.from < this.to)
{
for (long i = this.from; i <= this.to; i += this.step)
{
hashCode = 31 * hashCode + (int) i;
}
}
else
{
for (long i = this.from; i >= this.to; i += this.step)
{
hashCode = 31 * hashCode + (int) i;
}
}
return hashCode;
}
Returns a new IntInterval with the from and to values reversed and the step value negated.
/**
* Returns a new IntInterval with the from and to values reversed and the step value negated.
*/
@Override
public IntInterval toReversed()
{
return IntInterval.fromToBy(this.to, this.from, -this.step);
}
Since: 6.0
/**
* @since 6.0
*/
@Override
public ImmutableIntList distinct()
{
return this;
}
@Override
public ImmutableIntList subList(int fromIndex, int toIndex)
{
return IntInterval.fromToBy(this.get(fromIndex), this.get(toIndex - 1), this.step);
}
Returns the size of the interval.
/**
* Returns the size of the interval.
*/
@Override
public int size()
{
return this.size;
}
@Override
public long dotProduct(IntList list)
{
if (this.size() != list.size())
{
throw new IllegalArgumentException("Lists used in dotProduct must be the same size");
}
long sum = 0L;
for (int i = 0; i < this.size(); i++)
{
sum += (long) this.get(i) * list.get(i);
}
return sum;
}
@Override
public boolean isEmpty()
{
return this.size() == 0;
}
@Override
public boolean notEmpty()
{
return !this.isEmpty();
}
@Override
public String makeString()
{
return this.makeString(", ");
}
@Override
public String makeString(String separator)
{
return this.makeString("", separator, "");
}
@Override
public String makeString(String start, String separator, String end)
{
Appendable stringBuilder = new StringBuilder();
this.appendString(stringBuilder, start, separator, end);
return stringBuilder.toString();
}
@Override
public void appendString(Appendable appendable)
{
this.appendString(appendable, ", ");
}
@Override
public void appendString(Appendable appendable, String separator)
{
this.appendString(appendable, "", separator, "");
}
@Override
public void appendString(
Appendable appendable,
String start,
String separator,
String end)
{
try
{
appendable.append(start);
for (int i = 0; i < this.size(); i++)
{
if (i > 0)
{
appendable.append(separator);
}
int value = this.get(i);
appendable.append(String.valueOf(value));
}
appendable.append(end);
}
catch (IOException e)
{
throw new RuntimeException(e);
}
}
@Override
public int[] toArray()
{
int[] result = new int[this.size()];
this.forEachWithIndex((each, index) -> result[index] = each);
return result;
}
@Override
public int[] toArray(int[] result)
{
if (result.length < this.size())
{
result = new int[this.size()];
}
int[] finalBypass = result;
this.forEachWithIndex((each, index) -> finalBypass[index] = each);
return result;
}
@Override
public <T> T injectInto(T injectedValue, ObjectIntToObjectFunction<? super T, ? extends T> function)
{
T result = injectedValue;
if (this.goForward())
{
for (long i = this.from; i <= this.to; i += this.step)
{
result = function.valueOf(result, (int) i);
}
}
else
{
for (long i = this.from; i >= this.to; i += this.step)
{
result = function.valueOf(result, (int) i);
}
}
return result;
}
@Override
public <T> T injectIntoWithIndex(T injectedValue, ObjectIntIntToObjectFunction<? super T, ? extends T> function)
{
T result = injectedValue;
int index = 0;
if (this.goForward())
{
for (long i = this.from; i <= this.to; i += this.step)
{
result = function.valueOf(result, (int) i, index);
index++;
}
}
else
{
for (long i = this.from; i >= this.to; i += this.step)
{
result = function.valueOf(result, (int) i, index);
index++;
}
}
return result;
}
@Override
public RichIterable<IntIterable> chunk(int size)
{
if (size <= 0)
{
throw new IllegalArgumentException("Size for groups must be positive but was: " + size);
}
MutableList<IntIterable> result = Lists.mutable.empty();
if (this.notEmpty())
{
int innerFrom = this.from;
int lastUpdated = this.from;
if (this.from <= this.to)
{
while ((lastUpdated + this.step) <= this.to)
{
MutableIntList batch = IntLists.mutable.empty();
for (long i = innerFrom; i <= this.to && batch.size() < size; i += this.step)
{
batch.add((int) i);
lastUpdated = (int) i;
}
result.add(batch);
innerFrom = lastUpdated + this.step;
}
}
else
{
while ((lastUpdated + this.step) >= this.to)
{
MutableIntList batch = IntLists.mutable.empty();
for (long i = innerFrom; i >= this.to && batch.size() < size; i += this.step)
{
batch.add((int) i);
lastUpdated = (int) i;
}
result.add(batch);
innerFrom = lastUpdated + this.step;
}
}
}
return result;
}
@Override
public String toString()
{
return this.makeString("[", ", ", "]");
}
@Override
public IntIterator intIterator()
{
return new IntIntervalIterator();
}
@Override
public int getFirst()
{
return this.from;
}
@Override
public int getLast()
{
return (int) IntervalUtils.valueAtIndex(this.size() - 1, this.from, this.to, this.step);
}
@Override
public int get(int index)
{
this.checkBounds("index", index);
return (int) IntervalUtils.valueAtIndex(index, this.from, this.to, this.step);
}
private void checkBounds(String name, int index)
{
if (index < 0 || index >= this.size())
{
throw new IndexOutOfBoundsException(name + ": " + index + ' ' + this);
}
}
@Override
public int indexOf(int value)
{
return IntervalUtils.indexOf(value, this.from, this.to, this.step);
}
@Override
public int lastIndexOf(int value)
{
return this.indexOf(value);
}
@Override
public ImmutableIntList select(IntPredicate predicate)
{
return IntArrayList.newList(new SelectIntIterable(this, predicate)).toImmutable();
}
@Override
public ImmutableIntList reject(IntPredicate predicate)
{
return IntArrayList.newList(new SelectIntIterable(this, IntPredicates.not(predicate))).toImmutable();
}
@Override
public int detectIfNone(IntPredicate predicate, int ifNone)
{
return new SelectIntIterable(this, predicate).detectIfNone(predicate, ifNone);
}
@Override
public <V> ImmutableList<V> collect(IntToObjectFunction<? extends V> function)
{
return new CollectIntToObjectIterable<V>(this, function).toList().toImmutable();
}
@Override
public LazyIntIterable asReversed()
{
return ReverseIntIterable.adapt(this);
}
@Override
public long sum()
{
return (long) this.size() * ((long) this.getFirst() + (long) this.getLast()) / 2L;
}
@Override
public int max()
{
if (this.from >= this.to)
{
return this.getFirst();
}
return this.getLast();
}
@Override
public int min()
{
if (this.from <= this.to)
{
return this.getFirst();
}
return this.getLast();
}
@Override
public int minIfEmpty(int defaultValue)
{
return this.min();
}
@Override
public int maxIfEmpty(int defaultValue)
{
return this.max();
}
@Override
public double average()
{
// for an arithmetic sequence its median and its average are the same
return this.median();
}
@Override
public double median()
{
return ((double) this.getFirst() + (double) this.getLast()) / 2.0;
}
@Override
public int binarySearch(int value)
{
return IntervalUtils.binarySearch(value, this.from, this.to, this.step);
}
@Override
public int[] toSortedArray()
{
int[] array = this.toArray();
Arrays.sort(array);
return array;
}
@Override
public MutableIntList toList()
{
return IntArrayList.newList(this);
}
@Override
public MutableIntList toSortedList()
{
return IntArrayList.newList(this).sortThis();
}
@Override
public MutableIntSet toSet()
{
return IntHashSet.newSet(this);
}
@Override
public MutableIntBag toBag()
{
return IntHashBag.newBag(this);
}
@Override
public LazyIntIterable asLazy()
{
return new LazyIntIterableAdapter(this);
}
@Override
public ImmutableIntList toImmutable()
{
return this;
}
@Override
public ImmutableIntList newWith(int element)
{
return IntArrayList.newList(this).with(element).toImmutable();
}
@Override
public ImmutableIntList newWithout(int element)
{
return IntArrayList.newList(this).without(element).toImmutable();
}
@Override
public ImmutableIntList newWithAll(IntIterable elements)
{
return IntArrayList.newList(this).withAll(elements).toImmutable();
}
@Override
public ImmutableIntList newWithoutAll(IntIterable elements)
{
return IntArrayList.newList(this).withoutAll(elements).toImmutable();
}
@Override
public ImmutableList<IntIntPair> zipInt(IntIterable iterable)
{
int size = this.size();
int othersize = iterable.size();
MutableList<IntIntPair> target = Lists.mutable.withInitialCapacity(Math.min(size, othersize));
IntIterator iterator = this.intIterator();
IntIterator otherIterator = iterable.intIterator();
for (int i = 0; i < size && otherIterator.hasNext(); i++)
{
target.add(PrimitiveTuples.pair(iterator.next(), otherIterator.next()));
}
return target.toImmutable();
}
@Override
public <T> ImmutableList<IntObjectPair<T>> zip(Iterable<T> iterable)
{
int size = this.size();
int othersize = Iterate.sizeOf(iterable);
MutableList<IntObjectPair<T>> target = Lists.mutable.withInitialCapacity(Math.min(size, othersize));
IntIterator iterator = this.intIterator();
Iterator<T> otherIterator = iterable.iterator();
for (int i = 0; i < size && otherIterator.hasNext(); i++)
{
target.add(PrimitiveTuples.pair(iterator.next(), otherIterator.next()));
}
return target.toImmutable();
}
@Override
public Spliterator.OfInt spliterator()
{
return new IntIntervalSpliterator(this.from, this.to, this.step);
}
private class IntIntervalIterator implements IntIterator
{
private long current = IntInterval.this.from;
@Override
public boolean hasNext()
{
if (IntInterval.this.from <= IntInterval.this.to)
{
return this.current <= IntInterval.this.to;
}
return this.current >= IntInterval.this.to;
}
@Override
public int next()
{
if (this.hasNext())
{
int result = (int) this.current;
this.current += IntInterval.this.step;
return result;
}
throw new NoSuchElementException();
}
}
private static final class IntIntervalSpliterator implements Spliterator.OfInt
{
private int current;
private final int to;
private final int step;
private final boolean isAscending;
private IntIntervalSpliterator(int from, int to, int step)
{
this.current = from;
this.to = to;
this.step = step;
this.isAscending = from <= to;
}
@Override
public Comparator<? super Integer> getComparator()
{
if (this.isAscending)
{
return Comparator.naturalOrder();
}
return Comparator.reverseOrder();
}
@Override
public OfInt trySplit()
{
OfInt leftSpliterator = null;
int numberOfStepsToMid = (int) (this.estimateSize() / 2);
int mid = this.current + this.step * numberOfStepsToMid;
if (this.isAscending)
{
if (this.current < mid)
{
leftSpliterator = new IntIntervalSpliterator(this.current, mid - 1, this.step);
this.current = mid;
}
}
else
{
if (this.current > mid)
{
leftSpliterator = new IntIntervalSpliterator(this.current, mid + 1, this.step);
this.current = mid;
}
}
return leftSpliterator;
}
@Override
public long estimateSize()
{
return ((long) this.to - (long) this.current) / (long) this.step + 1;
}
@Override
public int characteristics()
{
return Spliterator.DISTINCT | Spliterator.IMMUTABLE | Spliterator.NONNULL | Spliterator.ORDERED | Spliterator.SIZED | Spliterator.SORTED;
}
@Override
public boolean tryAdvance(IntConsumer action)
{
action.accept(this.current);
this.current += this.step;
if (this.isAscending)
{
return this.current <= this.to;
}
return this.current >= this.to;
}
}
private void readObject(ObjectInputStream ois)
throws IOException, ClassNotFoundException
{
ois.defaultReadObject();
this.size = IntervalUtils.intSize(this.from, this.to, this.step);
}
}