package org.eclipse.collections.impl.set.mutable.primitive;
import java.io.Externalizable;
import java.io.IOException;
import java.io.ObjectInput;
import java.io.ObjectOutput;
import java.io.Serializable;
import java.util.Arrays;
import java.util.Collection;
import java.util.NoSuchElementException;
import org.eclipse.collections.api.IntIterable;
import org.eclipse.collections.api.RichIterable;
import org.eclipse.collections.api.block.function.primitive.IntToObjectFunction;
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.IntProcedure;
import org.eclipse.collections.api.collection.primitive.MutableIntCollection;
import org.eclipse.collections.api.iterator.IntIterator;
import org.eclipse.collections.api.iterator.MutableIntIterator;
import org.eclipse.collections.api.list.MutableList;
import org.eclipse.collections.impl.factory.Lists;
import org.eclipse.collections.api.set.ImmutableSet;
import org.eclipse.collections.api.set.MutableSet;
import org.eclipse.collections.api.set.primitive.ImmutableIntSet;
import org.eclipse.collections.api.set.primitive.MutableIntSet;
import org.eclipse.collections.api.set.primitive.IntSet;
import org.eclipse.collections.impl.factory.primitive.IntSets;
import org.eclipse.collections.impl.set.immutable.primitive.ImmutableIntSetSerializationProxy;
import org.eclipse.collections.impl.set.mutable.UnifiedSet;
import org.eclipse.collections.impl.SpreadFunctions;
import org.eclipse.collections.impl.set.immutable.primitive.AbstractImmutableIntSet;
import org.eclipse.collections.impl.set.primitive.AbstractIntSet;
public class IntHashSet extends AbstractIntSet implements MutableIntSet, Externalizable
{
private static final long serialVersionUID = 1L;
private static final int DEFAULT_INITIAL_CAPACITY = 16;
private static final int EMPTY = 0;
private static final int REMOVED = 1;
private static final int CACHE_LINE_SIZE = 64;
private static final int KEY_SIZE = 4;
private static final int INITIAL_LINEAR_PROBE = CACHE_LINE_SIZE / KEY_SIZE / 2;
private int[] table;
private int occupiedWithData;
private int occupiedWithSentinels;
private int zeroToThirtyOne;
private int zeroToThirtyOneOccupied;
private transient boolean copyOnWrite;
public IntHashSet()
{
this.allocateTable(DEFAULT_INITIAL_CAPACITY);
}
public IntHashSet(int initialCapacity)
{
if (initialCapacity < 0)
{
throw new IllegalArgumentException("initial capacity cannot be less than 0");
}
int capacity = this.smallestPowerOfTwoGreaterThan(initialCapacity << 1);
this.allocateTable(capacity);
}
public IntHashSet(int... elements)
{
this();
this.addAll(elements);
}
public IntHashSet(IntHashSet set)
{
this.occupiedWithData = set.occupiedWithData;
this.occupiedWithSentinels = set.occupiedWithSentinels;
this.zeroToThirtyOneOccupied = set.zeroToThirtyOneOccupied;
this.zeroToThirtyOne = set.zeroToThirtyOne;
this.allocateTable(set.table.length);
System.arraycopy(set.table, 0, this.table, 0, set.table.length);
}
private int smallestPowerOfTwoGreaterThan(int n)
{
return n > 1 ? Integer.highestOneBit(n - 1) << 1 : 1;
}
public static IntHashSet newSet(IntIterable source)
{
if (source instanceof IntHashSet)
{
return new IntHashSet((IntHashSet) source);
}
return IntHashSet.newSetWith(source.toArray());
}
public static IntHashSet newSetWith(int... source)
{
return new IntHashSet(source);
}
private static boolean isBetweenZeroAndThirtyOne(int value)
{
return value >= 0 && value <= 31;
}
@Override
public int hashCode()
{
int result = 0;
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
result += value;
zeroToThirtyOne &= ~(1 << value);
}
if (this.table != null)
{
for (int i = 0; i < this.table.length; i++)
{
if (isNonSentinel(this.table[i]))
{
result += this.table[i];
}
}
}
return result;
}
@Override
public int size()
{
return this.occupiedWithData + this.zeroToThirtyOneOccupied;
}
@Override
public void appendString(Appendable appendable, String start, String separator, String end)
{
try
{
appendable.append(start);
int count = 0;
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
if (count > 0)
{
appendable.append(separator);
}
count++;
appendable.append(String.valueOf(value));
zeroToThirtyOne &= ~(1 << value);
}
for (int value : this.table)
{
if (isNonSentinel(value))
{
if (count > 0)
{
appendable.append(separator);
}
count++;
appendable.append(String.valueOf(value));
}
}
appendable.append(end);
}
catch (IOException e)
{
throw new RuntimeException(e);
}
}
@Override
public boolean add(int element)
{
if (isBetweenZeroAndThirtyOne(element))
{
int initial = this.zeroToThirtyOne;
this.zeroToThirtyOne |= 1 << element;
if (this.zeroToThirtyOne != initial)
{
this.zeroToThirtyOneOccupied++;
return true;
}
return false;
}
int index = this.probe(element);
if (this.table[index] == element)
{
return false;
}
if (this.copyOnWrite)
{
this.copyTable();
}
if (this.table[index] == REMOVED)
{
--this.occupiedWithSentinels;
}
this.table[index] = element;
++this.occupiedWithData;
if (this.occupiedWithData + this.occupiedWithSentinels > this.maxOccupiedWithData())
{
this.rehashAndGrow();
}
return true;
}
@Override
public boolean addAll(int... source)
{
int oldSize = this.size();
for (int item : source)
{
this.add(item);
}
return this.size() != oldSize;
}
@Override
public boolean addAll(IntIterable source)
{
if (source.isEmpty())
{
return false;
}
int oldSize = this.size();
if (source instanceof IntHashSet)
{
IntHashSet hashSet = (IntHashSet) source;
this.zeroToThirtyOne |= hashSet.zeroToThirtyOne;
this.zeroToThirtyOneOccupied = Integer.bitCount(this.zeroToThirtyOne);
for (int item : hashSet.table)
{
if (isNonSentinel(item))
{
this.add(item);
}
}
}
else
{
IntIterator iterator = source.intIterator();
while (iterator.hasNext())
{
int item = iterator.next();
this.add(item);
}
}
return this.size() != oldSize;
}
@Override
public boolean remove(int value)
{
if (isBetweenZeroAndThirtyOne(value))
{
return this.removeZeroToThirtyOne(value);
}
if (this.occupiedWithData == 0)
{
return false;
}
int index = this.probe(value);
if (this.table[index] == value)
{
if (this.copyOnWrite)
{
this.copyTable();
}
this.table[index] = REMOVED;
this.occupiedWithData--;
this.occupiedWithSentinels++;
return true;
}
return false;
}
private boolean removeZeroToThirtyOne(int value)
{
int initial = this.zeroToThirtyOne;
this.zeroToThirtyOne &= ~(1 << value);
if (this.zeroToThirtyOne == initial)
{
return false;
}
this.zeroToThirtyOneOccupied--;
return true;
}
@Override
public boolean removeAll(IntIterable source)
{
if (source.isEmpty())
{
return false;
}
int oldSize = this.size();
if (source instanceof IntHashSet)
{
IntHashSet hashSet = (IntHashSet) source;
this.zeroToThirtyOne &= ~hashSet.zeroToThirtyOne;
this.zeroToThirtyOneOccupied = Integer.bitCount(this.zeroToThirtyOne);
for (int item : hashSet.table)
{
if (isNonSentinel(item))
{
this.remove(item);
}
}
}
else
{
IntIterator iterator = source.intIterator();
while (iterator.hasNext())
{
int item = iterator.next();
this.remove(item);
}
}
return this.size() != oldSize;
}
@Override
public boolean removeAll(int... source)
{
if (source.length == 0)
{
return false;
}
int oldSize = this.size();
for (int item : source)
{
this.remove(item);
}
return this.size() != oldSize;
}
@Override
public boolean retainAll(IntIterable source)
{
int oldSize = this.size();
final IntSet sourceSet = source instanceof IntSet ? (IntSet) source : source.toSet();
IntHashSet retained = this.select(sourceSet::contains);
if (retained.size() != oldSize)
{
this.zeroToThirtyOne = retained.zeroToThirtyOne;
this.zeroToThirtyOneOccupied = retained.zeroToThirtyOneOccupied;
this.occupiedWithData = retained.occupiedWithData;
this.occupiedWithSentinels = retained.occupiedWithSentinels;
this.table = retained.table;
return true;
}
return false;
}
@Override
public boolean retainAll(int... source)
{
return this.retainAll(IntHashSet.newSetWith(source));
}
@Override
public void clear()
{
this.zeroToThirtyOneOccupied = 0;
this.occupiedWithData = 0;
this.occupiedWithSentinels = 0;
this.zeroToThirtyOne = 0;
if (this.copyOnWrite)
{
this.table = new int[this.table.length];
this.copyOnWrite = false;
}
else
{
Arrays.fill(this.table, EMPTY);
}
}
@Override
public IntHashSet with(int element)
{
this.add(element);
return this;
}
@Override
public IntHashSet without(int element)
{
this.remove(element);
return this;
}
@Override
public IntHashSet withAll(IntIterable elements)
{
this.addAll(elements.toArray());
return this;
}
@Override
public IntHashSet withoutAll(IntIterable elements)
{
this.removeAll(elements);
return this;
}
@Override
public MutableIntSet asUnmodifiable()
{
return new UnmodifiableIntSet(this);
}
@Override
public MutableIntSet asSynchronized()
{
return new SynchronizedIntSet(this);
}
@Override
public ImmutableIntSet toImmutable()
{
if (this.size() == 0)
{
return IntSets.immutable.with();
}
if (this.size() == 1)
{
return IntSets.immutable.with(this.intIterator().next());
}
IntHashSet mutableSet = IntHashSet.newSetWith(this.toArray());
return new ImmutableIntHashSet(mutableSet.table, mutableSet.occupiedWithData, mutableSet.zeroToThirtyOne, mutableSet.zeroToThirtyOneOccupied);
}
@Override
public MutableIntIterator intIterator()
{
return new InternalIntIterator();
}
@Override
public int[] toArray()
{
int[] array = new int[this.size()];
int j = 0;
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
array[j] = value;
j++;
zeroToThirtyOne &= ~(1 << value);
}
for (int i = 0; i < this.table.length && j < this.size(); i++)
{
if (isNonSentinel(this.table[i]))
{
array[j] = this.table[i];
j++;
}
}
return array;
}
@Override
public int[] toArray(int[] array)
{
if (array.length < this.size())
{
array = new int[this.size()];
}
int j = 0;
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
array[j] = value;
j++;
zeroToThirtyOne &= ~(1 << value);
}
for (int i = 0; i < this.table.length && j < this.size(); i++)
{
if (isNonSentinel(this.table[i]))
{
array[j] = this.table[i];
j++;
}
}
return array;
}
@Override
public boolean contains(int value)
{
if (isBetweenZeroAndThirtyOne(value))
{
int temp = this.zeroToThirtyOne;
return ((temp >>> value) & 1) != 0;
}
return this.table[this.probe(value)] == value;
}
@Override
public void forEach(IntProcedure procedure)
{
this.each(procedure);
}
@Override
public void each(IntProcedure procedure)
{
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
procedure.value(value);
zeroToThirtyOne &= ~(1 << value);
}
for (int value : this.table)
{
if (isNonSentinel(value))
{
procedure.value(value);
}
}
}
@Override
public IntHashSet select(IntPredicate predicate)
{
return this.select(predicate, new IntHashSet());
}
@Override
public <R extends MutableIntCollection> R select(IntPredicate predicate, R target)
{
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
if (predicate.accept(value))
{
target.add(value);
}
zeroToThirtyOne &= ~(1 << value);
}
for (int value : this.table)
{
if (isNonSentinel(value))
{
if (predicate.accept(value))
{
target.add(value);
}
}
}
return target;
}
@Override
public IntHashSet reject(IntPredicate predicate)
{
return this.reject(predicate, new IntHashSet());
}
@Override
public <R extends MutableIntCollection> R reject(IntPredicate predicate, R target)
{
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
if (!predicate.accept(value))
{
target.add(value);
}
zeroToThirtyOne &= ~(1 << value);
}
for (int value : this.table)
{
if (isNonSentinel(value))
{
if (!predicate.accept(value))
{
target.add(value);
}
}
}
return target;
}
@Override
public <V> MutableSet<V> collect(IntToObjectFunction<? extends V> function)
{
return this.collect(function, UnifiedSet.newSet(this.size()));
}
@Override
public <V, R extends Collection<V>> R collect(IntToObjectFunction<? extends V> function, R target)
{
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
target.add(function.valueOf(value));
zeroToThirtyOne &= ~(1 << value);
}
for (int value : this.table)
{
if (isNonSentinel(value))
{
target.add(function.valueOf(value));
}
}
return target;
}
@Override
public int detectIfNone(IntPredicate predicate, int ifNone)
{
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
if (predicate.accept(value))
{
return value;
}
zeroToThirtyOne &= ~(1 << value);
}
for (int value : this.table)
{
if (isNonSentinel(value))
{
if (predicate.accept(value))
{
return value;
}
}
}
return ifNone;
}
@Override
public int count(IntPredicate predicate)
{
int count = 0;
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
if (predicate.accept(value))
{
count++;
}
zeroToThirtyOne &= ~(1 << value);
}
for (int value : this.table)
{
if (isNonSentinel(value))
{
if (predicate.accept(value))
{
count++;
}
}
}
return count;
}
@Override
public boolean anySatisfy(IntPredicate predicate)
{
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
if (predicate.accept(value))
{
return true;
}
zeroToThirtyOne &= ~(1 << value);
}
for (int value : this.table)
{
if (isNonSentinel(value))
{
if (predicate.accept(value))
{
return true;
}
}
}
return false;
}
@Override
public boolean allSatisfy(IntPredicate predicate)
{
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
if (!predicate.accept(value))
{
return false;
}
zeroToThirtyOne &= ~(1 << value);
}
for (int value : this.table)
{
if (isNonSentinel(value))
{
if (!predicate.accept(value))
{
return false;
}
}
}
return true;
}
@Override
public boolean noneSatisfy(IntPredicate predicate)
{
return !this.anySatisfy(predicate);
}
@Override
public long sum()
{
long result = 0L;
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
result += value;
zeroToThirtyOne &= ~(1 << value);
}
for (int value : this.table)
{
if (isNonSentinel(value))
{
result += value;
}
}
return result;
}
@Override
public int max()
{
if (this.isEmpty())
{
throw new NoSuchElementException();
}
int max = 31 - Integer.numberOfLeadingZeros(this.zeroToThirtyOne);
boolean isMaxSet = this.zeroToThirtyOneOccupied != 0;
for (int value : this.table)
{
if (isNonSentinel(value) && (!isMaxSet || max < value))
{
max = value;
isMaxSet = true;
}
}
return max;
}
@Override
public int min()
{
if (this.isEmpty())
{
throw new NoSuchElementException();
}
int min = Integer.numberOfTrailingZeros(this.zeroToThirtyOne);
boolean isMinSet = this.zeroToThirtyOneOccupied != 0;
for (int value : this.table)
{
if (isNonSentinel(value) && (!isMinSet || value < min))
{
min = value;
isMinSet = true;
}
}
return min;
}
@Override
public IntSet freeze()
{
if (this.size() == 0)
{
return IntSets.immutable.with();
}
if (this.size() == 1)
{
return IntSets.immutable.with(this.intIterator().next());
}
this.copyOnWrite = true;
return new ImmutableIntHashSet(this.table, this.occupiedWithData, this.zeroToThirtyOne, this.zeroToThirtyOneOccupied);
}
@Override
public void writeExternal(ObjectOutput out) throws IOException
{
out.writeInt(this.size());
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
out.writeInt(value);
zeroToThirtyOne &= ~(1 << value);
}
for (int value : this.table)
{
if (isNonSentinel(value))
{
out.writeInt(value);
}
}
}
@Override
public void readExternal(ObjectInput in) throws IOException
{
int size = in.readInt();
for (int i = 0; i < size; i++)
{
this.add(in.readInt());
}
}
@Override
public <T> T injectInto(T injectedValue, ObjectIntToObjectFunction<? super T, ? extends T> function)
{
T result = injectedValue;
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
result = function.valueOf(result, value);
zeroToThirtyOne &= ~(1 << value);
}
for (int value : this.table)
{
if (isNonSentinel(value))
{
result = function.valueOf(result, value);
}
}
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())
{
if (this.size() <= size)
{
result.add(IntSets.mutable.withAll(this));
}
else
{
IntIterator iterator = this.intIterator();
while (iterator.hasNext())
{
MutableIntSet batch = IntSets.mutable.empty();
for (int i = 0; i < size && iterator.hasNext(); i++)
{
batch.add(iterator.next());
}
result.add(batch);
}
}
}
return result;
}
public IntHashSet newEmpty()
{
return new IntHashSet();
}
public void compact()
{
this.rehash(this.smallestPowerOfTwoGreaterThan(this.size()));
}
private void rehashAndGrow()
{
int max = this.maxOccupiedWithData();
int newCapacity = Math.max(max, smallestPowerOfTwoGreaterThan((this.occupiedWithData + 1) << 1));
if (this.occupiedWithSentinels > 0 && (max >> 1) + (max >> 2) < this.occupiedWithData)
{
newCapacity <<= 1;
}
this.rehash(newCapacity);
}
private void rehash(int newCapacity)
{
int oldLength = this.table.length;
int[] old = this.table;
this.allocateTable(newCapacity);
this.occupiedWithData = 0;
this.occupiedWithSentinels = 0;
for (int i = 0; i < oldLength; i++)
{
if (isNonSentinel(old[i]))
{
this.add(old[i]);
}
}
}
protected void allocateTable(int sizeToAllocate)
{
this.table = new int[sizeToAllocate];
}
int probe(int element)
{
int index = this.spreadAndMask(element);
int valueAtIndex = this.table[index];
if (valueAtIndex == element || valueAtIndex == EMPTY)
{
return index;
}
int removedIndex = valueAtIndex == REMOVED ? index : -1;
for (int i = 1; i < INITIAL_LINEAR_PROBE; i++)
{
int nextIndex = (index + i) & (this.table.length - 1);
valueAtIndex = this.table[nextIndex];
if (valueAtIndex == element)
{
return nextIndex;
}
if (valueAtIndex == EMPTY)
{
return removedIndex == -1 ? nextIndex : removedIndex;
}
if (valueAtIndex == REMOVED && removedIndex == -1)
{
removedIndex = nextIndex;
}
}
return this.probeTwo(element, removedIndex);
}
int probeTwo(int element, int removedIndex)
{
int index = this.spreadTwoAndMask(element);
for (int i = 0; i < INITIAL_LINEAR_PROBE; i++)
{
int nextIndex = (index + i) & (this.table.length - 1);
int valueAtIndex = this.table[nextIndex];
if (valueAtIndex == element)
{
return nextIndex;
}
if (valueAtIndex == EMPTY)
{
return removedIndex == -1 ? nextIndex : removedIndex;
}
if (valueAtIndex == REMOVED && removedIndex == -1)
{
removedIndex = nextIndex;
}
}
return this.probeThree(element, removedIndex);
}
int probeThree(int element, int removedIndex)
{
int nextIndex = Integer.reverse(SpreadFunctions.intSpreadOne(element));
int spreadTwo = Integer.reverse(SpreadFunctions.intSpreadTwo(element)) | 1;
while (true)
{
nextIndex = this.mask(nextIndex + spreadTwo);
int valueAtIndex = this.table[nextIndex];
if (valueAtIndex == element)
{
return nextIndex;
}
if (valueAtIndex == EMPTY)
{
return removedIndex == -1 ? nextIndex : removedIndex;
}
if (valueAtIndex == REMOVED && removedIndex == -1)
{
removedIndex = nextIndex;
}
}
}
int spreadAndMask(int element)
{
int code = SpreadFunctions.intSpreadOne(element);
return this.mask(code);
}
int spreadTwoAndMask(int element)
{
int code = SpreadFunctions.intSpreadTwo(element);
return this.mask(code);
}
private int mask(int spread)
{
return spread & (this.table.length - 1);
}
private void copyTable()
{
this.copyOnWrite = false;
int[] copy = new int[this.table.length];
System.arraycopy(this.table, 0, copy, 0, this.table.length);
this.table = copy;
}
private int maxOccupiedWithData()
{
return this.table.length >> 1;
}
private static boolean isNonSentinel(int value)
{
return value != EMPTY && value != REMOVED;
}
private static final class ImmutableIntHashSet extends AbstractImmutableIntSet implements Serializable
{
private static final long serialVersionUID = 1L;
private final int[] table;
private final int occupied;
private final int zeroToThirtyOne;
private final int zeroToThirtyOneOccupied;
private ImmutableIntHashSet(int[] table, int occupied, int zeroToThirtyOne, int zeroToThirtyOneOccupied)
{
this.checkOptimizedSize(occupied + zeroToThirtyOneOccupied);
this.occupied = occupied;
this.zeroToThirtyOneOccupied = zeroToThirtyOneOccupied;
this.zeroToThirtyOne = zeroToThirtyOne;
this.table = table;
}
private void checkOptimizedSize(int length)
{
if (length <= 1)
{
throw new IllegalArgumentException("Use IntSets.immutable.with() to instantiate an optimized collection");
}
}
public static ImmutableIntSet newSetWith(int... elements)
{
return IntHashSet.newSetWith(elements).toImmutable();
}
@Override
public int hashCode()
{
int result = 0;
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
result += value;
zeroToThirtyOne &= ~(1 << value);
}
if (this.table != null)
{
for (int i = 0; i < this.table.length; i++)
{
if (isNonSentinel(this.table[i]))
{
result += this.table[i];
}
}
}
return result;
}
@Override
public int size()
{
return this.occupied + this.zeroToThirtyOneOccupied;
}
@Override
public void appendString(Appendable appendable, String start, String separator, String end)
{
try
{
appendable.append(start);
int count = 0;
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
if (count > 0)
{
appendable.append(separator);
}
count++;
appendable.append(String.valueOf(value));
zeroToThirtyOne &= ~(1 << value);
}
for (int value : this.table)
{
if (isNonSentinel(value))
{
if (count > 0)
{
appendable.append(separator);
}
count++;
appendable.append(String.valueOf(value));
}
}
appendable.append(end);
}
catch (IOException e)
{
throw new RuntimeException(e);
}
}
@Override
public IntIterator intIterator()
{
return new InternalIntIterator();
}
@Override
public int[] toArray()
{
int[] array = new int[this.size()];
int j = 0;
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
array[j] = value;
j++;
zeroToThirtyOne &= ~(1 << value);
}
for (int i = 0; i < this.table.length && j < this.size(); i++)
{
if (isNonSentinel(this.table[i]))
{
array[j] = this.table[i];
j++;
}
}
return array;
}
@Override
public int[] toArray(int[] array)
{
if (array.length < this.size())
{
array = new int[this.size()];
}
int j = 0;
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
array[j] = value;
j++;
zeroToThirtyOne &= ~(1 << value);
}
for (int i = 0; i < this.table.length && j < this.size(); i++)
{
if (isNonSentinel(this.table[i]))
{
array[j] = this.table[i];
j++;
}
}
return array;
}
@Override
public boolean contains(int value)
{
if (isBetweenZeroAndThirtyOne(value))
{
int temp = this.zeroToThirtyOne;
return ((temp >>> value) & 1) != 0;
}
return this.table[this.probe(value)] == value;
}
@Override
public void forEach(IntProcedure procedure)
{
this.each(procedure);
}
@Override
public void each(IntProcedure procedure)
{
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
procedure.value(value);
zeroToThirtyOne &= ~(1 << value);
}
for (int value : this.table)
{
if (isNonSentinel(value))
{
procedure.value(value);
}
}
}
@Override
public ImmutableIntSet select(IntPredicate predicate)
{
return this.select(predicate, new IntHashSet()).toImmutable();
}
@Override
public ImmutableIntSet reject(IntPredicate predicate)
{
return this.reject(predicate, new IntHashSet()).toImmutable();
}
@Override
public <V> ImmutableSet<V> collect(IntToObjectFunction<? extends V> function)
{
MutableSet<V> set = this.collect(function, UnifiedSet.newSet(this.size()));
return set.toImmutable();
}
@Override
public int detectIfNone(IntPredicate predicate, int ifNone)
{
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
if (predicate.accept(value))
{
return value;
}
zeroToThirtyOne &= ~(1 << value);
}
for (int value : this.table)
{
if (isNonSentinel(value))
{
if (predicate.accept(value))
{
return value;
}
}
}
return ifNone;
}
@Override
public int count(IntPredicate predicate)
{
int count = 0;
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
if (predicate.accept(value))
{
count++;
}
zeroToThirtyOne &= ~(1 << value);
}
for (int value : this.table)
{
if (isNonSentinel(value))
{
if (predicate.accept(value))
{
count++;
}
}
}
return count;
}
@Override
public boolean anySatisfy(IntPredicate predicate)
{
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
if (predicate.accept(value))
{
return true;
}
zeroToThirtyOne &= ~(1 << value);
}
for (int value : this.table)
{
if (isNonSentinel(value))
{
if (predicate.accept(value))
{
return true;
}
}
}
return false;
}
@Override
public boolean allSatisfy(IntPredicate predicate)
{
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
if (!predicate.accept(value))
{
return false;
}
zeroToThirtyOne &= ~(1 << value);
}
for (int value : this.table)
{
if (isNonSentinel(value))
{
if (!predicate.accept(value))
{
return false;
}
}
}
return true;
}
@Override
public boolean noneSatisfy(IntPredicate predicate)
{
return !this.anySatisfy(predicate);
}
@Override
public long sum()
{
long result = 0L;
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
result += value;
zeroToThirtyOne &= ~(1 << value);
}
for (int value : this.table)
{
if (isNonSentinel(value))
{
result += value;
}
}
return result;
}
@Override
public int max()
{
if (this.isEmpty())
{
throw new NoSuchElementException();
}
int max = 31 - Integer.numberOfLeadingZeros(this.zeroToThirtyOne);
boolean isMaxSet = this.zeroToThirtyOneOccupied != 0;
for (int value : this.table)
{
if (isNonSentinel(value) && (!isMaxSet || max < value))
{
max = value;
isMaxSet = true;
}
}
return max;
}
@Override
public int min()
{
if (this.isEmpty())
{
throw new NoSuchElementException();
}
int min = Integer.numberOfTrailingZeros(this.zeroToThirtyOne);
boolean isMinSet = this.zeroToThirtyOneOccupied != 0;
for (int value : this.table)
{
if (isNonSentinel(value) && (!isMinSet || value < min))
{
min = value;
isMinSet = true;
}
}
return min;
}
@Override
public <T> T injectInto(T injectedValue, ObjectIntToObjectFunction<? super T, ? extends T> function)
{
T result = injectedValue;
int zeroToThirtyOne = this.zeroToThirtyOne;
while (zeroToThirtyOne != 0)
{
int value = Integer.numberOfTrailingZeros(zeroToThirtyOne);
result = function.valueOf(result, value);
zeroToThirtyOne &= ~(1 << value);
}
for (int value : this.table)
{
if (isNonSentinel(value))
{
result = function.valueOf(result, value);
}
}
return result;
}
private Object writeReplace()
{
return new ImmutableIntSetSerializationProxy(this);
}
int probe(int element)
{
int index = this.spreadAndMask(element);
int valueAtIndex = this.table[index];
if (valueAtIndex == element || valueAtIndex == EMPTY)
{
return index;
}
int removedIndex = valueAtIndex == REMOVED ? index : -1;
for (int i = 1; i < INITIAL_LINEAR_PROBE; i++)
{
int nextIndex = (index + i) & (this.table.length - 1);
valueAtIndex = this.table[nextIndex];
if (valueAtIndex == element)
{
return nextIndex;
}
if (valueAtIndex == EMPTY)
{
return removedIndex == -1 ? nextIndex : removedIndex;
}
if (valueAtIndex == REMOVED && removedIndex == -1)
{
removedIndex = nextIndex;
}
}
return this.probeTwo(element, removedIndex);
}
int probeTwo(int element, int removedIndex)
{
int index = this.spreadTwoAndMask(element);
for (int i = 0; i < INITIAL_LINEAR_PROBE; i++)
{
int nextIndex = (index + i) & (this.table.length - 1);
int valueAtIndex = this.table[nextIndex];
if (valueAtIndex == element)
{
return nextIndex;
}
if (valueAtIndex == EMPTY)
{
return removedIndex == -1 ? nextIndex : removedIndex;
}
if (valueAtIndex == REMOVED && removedIndex == -1)
{
removedIndex = nextIndex;
}
}
return this.probeThree(element, removedIndex);
}
int probeThree(int element, int removedIndex)
{
int nextIndex = Integer.reverse(SpreadFunctions.intSpreadOne(element));
int spreadTwo = Integer.reverse(SpreadFunctions.intSpreadTwo(element)) | 1;
while (true)
{
nextIndex = this.mask(nextIndex + spreadTwo);
int valueAtIndex = this.table[nextIndex];
if (valueAtIndex == element)
{
return nextIndex;
}
if (valueAtIndex == EMPTY)
{
return removedIndex == -1 ? nextIndex : removedIndex;
}
if (valueAtIndex == REMOVED && removedIndex == -1)
{
removedIndex = nextIndex;
}
}
}
int spreadAndMask(int element)
{
int code = SpreadFunctions.intSpreadOne(element);
return this.mask(code);
}
int spreadTwoAndMask(int element)
{
int code = SpreadFunctions.intSpreadTwo(element);
return this.mask(code);
}
private int mask(int spread)
{
return spread & (this.table.length - 1);
}
private class InternalIntIterator implements IntIterator
{
private int count;
private int position;
private int zeroToThirtyOne;
public boolean hasNext()
{
return this.count < ImmutableIntHashSet.this.size();
}
public int next()
{
if (!this.hasNext())
{
throw new NoSuchElementException("next() called, but the iterator is exhausted");
}
this.count++;
while (this.zeroToThirtyOne < 32)
{
if (ImmutableIntHashSet.this.contains(this.zeroToThirtyOne))
{
int result = this.zeroToThirtyOne;
this.zeroToThirtyOne++;
return result;
}
this.zeroToThirtyOne++;
}
int[] table = ImmutableIntHashSet.this.table;
while (!isNonSentinel(table[this.position]))
{
this.position++;
}
int result = table[this.position];
this.position++;
return result;
}
}
}
private class InternalIntIterator implements MutableIntIterator
{
private int count;
private int position;
private int zeroToThirtyOne;
@Override
public boolean hasNext()
{
return this.count < IntHashSet.this.size();
}
@Override
public int next()
{
if (!this.hasNext())
{
throw new NoSuchElementException("next() called, but the iterator is exhausted");
}
this.count++;
while (this.zeroToThirtyOne < 32)
{
if (IntHashSet.this.contains(this.zeroToThirtyOne))
{
int result = this.zeroToThirtyOne;
this.zeroToThirtyOne++;
return result;
}
this.zeroToThirtyOne++;
}
int[] table = IntHashSet.this.table;
while (!isNonSentinel(table[this.position]))
{
this.position++;
}
int result = table[this.position];
this.position++;
return result;
}
@Override
public void remove()
{
if (this.count == 0)
{
throw new IllegalStateException();
}
int removeValue;
if (this.zeroToThirtyOne <= 32 && this.position == 0)
{
if (IntHashSet.this.zeroToThirtyOne != (IntHashSet.this.zeroToThirtyOne | 1 << (this.zeroToThirtyOne - 1)))
{
throw new IllegalStateException();
}
removeValue = this.zeroToThirtyOne - 1;
}
else if (IntHashSet.this.table[this.position - 1] == REMOVED)
{
throw new IllegalStateException();
}
else
{
removeValue = IntHashSet.this.table[this.position - 1];
}
if (IntHashSet.isBetweenZeroAndThirtyOne(removeValue))
{
IntHashSet.this.removeZeroToThirtyOne(removeValue);
}
else if (IntHashSet.this.table[this.position - 1] == removeValue)
{
if (IntHashSet.this.copyOnWrite)
{
IntHashSet.this.copyTable();
}
IntHashSet.this.table[position - 1] = REMOVED;
IntHashSet.this.occupiedWithData--;
IntHashSet.this.occupiedWithSentinels++;
}
this.count--;
}
}
}
IntHashSet
serialVersionUID: long
allocateTable(int): void
probe(int): int
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.