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fastutil extends the Java Collections Framework by providing type-specific maps, sets, lists, and queues with a small memory footprint and fast operations; it provides also big (64-bit) arrays, sets, and lists, sorting algorithms, fast, practical I/O classes for binary and text files, and facilities for memory mapping large files. This jar (fastutil-core.jar) contains data structures based on integers, longs, doubles, and objects, only; fastutil.jar contains all classes. If you have both jars in your dependencies, this jar should be excluded.

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/*
	* Copyright (C) 2002-2022 Sebastiano Vigna
	*
	* 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 it.unimi.dsi.fastutil.doubles;

import java.util.Collection;
import java.util.Objects;
import java.util.function.Consumer;
import java.util.concurrent.atomic.AtomicInteger;
import java.util.function.IntFunction;
import java.util.function.Supplier;
import it.unimi.dsi.fastutil.objects.ObjectArrays;

/**
 * A class providing static methods and objects that do useful things with type-specific
 * collections.
 *
 * @see java.util.Collections
 */
public final class DoubleCollections {
	private DoubleCollections() {
	}

	/* Only in the EmptyCollection class, where performance is critical, do we override the
	 * deprecated, Object based functional methods. For the rest, we just override the
	 * non-deprecated type-specific method, and let the default method from the interface
	 * filter into that. This is an extra method call and lambda creation, but it isn't worth
	 * complexifying the code generation for a case that is already marked as being inefficient.
	 */
	/**
	 * An immutable class representing an empty type-specific collection.
	 *
	 * 

* This class may be useful to implement your own in case you subclass a type-specific collection. */ public abstract static class EmptyCollection extends AbstractDoubleCollection { protected EmptyCollection() { } @Override public boolean contains(double k) { return false; } @Override public Object[] toArray() { return ObjectArrays.EMPTY_ARRAY; } @Override public T[] toArray(T[] array) { if (array.length > 0) array[0] = null; return array; } @Override public DoubleBidirectionalIterator iterator() { return DoubleIterators.EMPTY_ITERATOR; } @Override public DoubleSpliterator spliterator() { return DoubleSpliterators.EMPTY_SPLITERATOR; } @Override public int size() { return 0; } @Override public void clear() { } @Override public int hashCode() { return 0; } @Override public boolean equals(Object o) { if (o == this) return true; if (!(o instanceof Collection)) return false; return ((Collection)o).isEmpty(); } @Deprecated @Override public void forEach(final Consumer action) { } @Override public boolean containsAll(final Collection c) { return c.isEmpty(); } @Override public boolean addAll(final Collection c) { throw new UnsupportedOperationException(); } @Override public boolean removeAll(final Collection c) { throw new UnsupportedOperationException(); } @Override public boolean retainAll(final Collection c) { throw new UnsupportedOperationException(); } @Deprecated @Override public boolean removeIf(final java.util.function.Predicate filter) { Objects.requireNonNull(filter); return false; } @Override public double[] toDoubleArray() { return DoubleArrays.EMPTY_ARRAY; } /* {@inheritDoc} * @deprecated Please use {@code toArray()} instead—this method is redundant and will be removed in the future. */ @Deprecated @Override public double[] toDoubleArray(double[] a) { return a; } @Override public void forEach(final java.util.function.DoubleConsumer action) { } @Override public boolean containsAll(final DoubleCollection c) { return c.isEmpty(); } @Override public boolean addAll(final DoubleCollection c) { throw new UnsupportedOperationException(); } @Override public boolean removeAll(final DoubleCollection c) { throw new UnsupportedOperationException(); } @Override public boolean retainAll(final DoubleCollection c) { throw new UnsupportedOperationException(); } @Override public boolean removeIf(final java.util.function.DoublePredicate filter) { Objects.requireNonNull(filter); return false; } } /** A synchronized wrapper class for collections. */ static class SynchronizedCollection implements DoubleCollection, java.io.Serializable { private static final long serialVersionUID = -7046029254386353129L; protected final DoubleCollection collection; protected final Object sync; protected SynchronizedCollection(final DoubleCollection c, final Object sync) { this.collection = Objects.requireNonNull(c); this.sync = sync; } protected SynchronizedCollection(final DoubleCollection c) { this.collection = Objects.requireNonNull(c); this.sync = this; } @Override public boolean add(final double k) { synchronized (sync) { return collection.add(k); } } @Override public boolean contains(final double k) { synchronized (sync) { return collection.contains(k); } } @Override public boolean rem(final double k) { synchronized (sync) { return collection.rem(k); } } @Override public int size() { synchronized (sync) { return collection.size(); } } @Override public boolean isEmpty() { synchronized (sync) { return collection.isEmpty(); } } @Override public double[] toDoubleArray() { synchronized (sync) { return collection.toDoubleArray(); } } @Override public Object[] toArray() { synchronized (sync) { return collection.toArray(); } } /* {@inheritDoc} * @deprecated Please use {@code toArray()} instead—this method is redundant and will be removed in the future. */ @Deprecated @Override public double[] toDoubleArray(final double[] a) { return toArray(a); } @Override public double[] toArray(final double[] a) { synchronized (sync) { return collection.toArray(a); } } @Override public boolean addAll(final DoubleCollection c) { synchronized (sync) { return collection.addAll(c); } } @Override public boolean containsAll(final DoubleCollection c) { synchronized (sync) { return collection.containsAll(c); } } @Override public boolean removeAll(final DoubleCollection c) { synchronized (sync) { return collection.removeAll(c); } } @Override public boolean retainAll(final DoubleCollection c) { synchronized (sync) { return collection.retainAll(c); } } @Override @Deprecated public boolean add(final Double k) { synchronized (sync) { return collection.add(k); } } @Override @Deprecated public boolean contains(final Object k) { synchronized (sync) { return collection.contains(k); } } @Override @Deprecated public boolean remove(final Object k) { synchronized (sync) { return collection.remove(k); } } @Override public DoubleIterator doubleIterator() { return collection.doubleIterator(); } @Override public DoubleSpliterator doubleSpliterator() { return collection.doubleSpliterator(); } @Override public java.util.stream.DoubleStream doubleStream() { return collection.doubleStream(); } @Override public java.util.stream.DoubleStream doubleParallelStream() { return collection.doubleParallelStream(); } @Override public T[] toArray(final T[] a) { synchronized (sync) { return collection.toArray(a); } } @Override public DoubleIterator iterator() { return collection.iterator(); } @Override public DoubleSpliterator spliterator() { return collection.spliterator(); } @Deprecated @Override public java.util.stream.Stream stream() { return collection.stream(); } @Deprecated @Override public java.util.stream.Stream parallelStream() { return collection.parallelStream(); } @Override public void forEach(final java.util.function.DoubleConsumer action) { synchronized (sync) { collection.forEach(action); } } @Override public boolean addAll(final Collection c) { synchronized (sync) { return collection.addAll(c); } } @Override public boolean containsAll(final Collection c) { synchronized (sync) { return collection.containsAll(c); } } @Override public boolean removeAll(final Collection c) { synchronized (sync) { return collection.removeAll(c); } } @Override public boolean retainAll(final Collection c) { synchronized (sync) { return collection.retainAll(c); } } @Override public boolean removeIf(final java.util.function.DoublePredicate filter) { synchronized (sync) { return collection.removeIf(filter); } } @Override public void clear() { synchronized (sync) { collection.clear(); } } @Override public String toString() { synchronized (sync) { return collection.toString(); } } @Override public int hashCode() { synchronized (sync) { return collection.hashCode(); } } @Override public boolean equals(final Object o) { if (o == this) return true; synchronized (sync) { return collection.equals(o); } } private void writeObject(java.io.ObjectOutputStream s) throws java.io.IOException { synchronized (sync) { s.defaultWriteObject(); } } } /** * Returns a synchronized collection backed by the specified collection. * * @param c the collection to be wrapped in a synchronized collection. * @return a synchronized view of the specified collection. * @see java.util.Collections#synchronizedCollection(Collection) */ public static DoubleCollection synchronize(final DoubleCollection c) { return new SynchronizedCollection(c); } /** * Returns a synchronized collection backed by the specified collection, using an assigned object to * synchronize. * * @param c the collection to be wrapped in a synchronized collection. * @param sync an object that will be used to synchronize the list access. * @return a synchronized view of the specified collection. * @see java.util.Collections#synchronizedCollection(Collection) */ public static DoubleCollection synchronize(final DoubleCollection c, final Object sync) { return new SynchronizedCollection(c, sync); } /** An unmodifiable wrapper class for collections. */ static class UnmodifiableCollection implements DoubleCollection, java.io.Serializable { private static final long serialVersionUID = -7046029254386353129L; protected final DoubleCollection collection; protected UnmodifiableCollection(final DoubleCollection c) { this.collection = Objects.requireNonNull(c); } @Override public boolean add(final double k) { throw new UnsupportedOperationException(); } @Override public boolean rem(final double k) { throw new UnsupportedOperationException(); } @Override public int size() { return collection.size(); } @Override public boolean isEmpty() { return collection.isEmpty(); } @Override public boolean contains(final double o) { return collection.contains(o); } @Override public DoubleIterator iterator() { return DoubleIterators.unmodifiable(collection.iterator()); } @Override public DoubleSpliterator spliterator() { return collection.spliterator(); } @Deprecated @Override public java.util.stream.Stream stream() { return collection.stream(); } @Deprecated @Override public java.util.stream.Stream parallelStream() { return collection.parallelStream(); } @Override public void clear() { throw new UnsupportedOperationException(); } @Override public T[] toArray(final T[] a) { return collection.toArray(a); } @Override public Object[] toArray() { return collection.toArray(); } @Override public void forEach(final java.util.function.DoubleConsumer action) { collection.forEach(action); } @Override public boolean containsAll(Collection c) { return collection.containsAll(c); } @Override public boolean addAll(Collection c) { throw new UnsupportedOperationException(); } @Override public boolean removeAll(Collection c) { throw new UnsupportedOperationException(); } @Override public boolean retainAll(Collection c) { throw new UnsupportedOperationException(); } @Override public boolean removeIf(final java.util.function.DoublePredicate filter) { throw new UnsupportedOperationException(); } @Override @Deprecated public boolean add(final Double k) { throw new UnsupportedOperationException(); } @Override @Deprecated public boolean contains(final Object k) { return collection.contains(k); } @Override @Deprecated public boolean remove(final Object k) { throw new UnsupportedOperationException(); } @Override public double[] toDoubleArray() { return collection.toDoubleArray(); } /* {@inheritDoc} * @deprecated Please use {@code toArray()} instead—this method is redundant. */ @Deprecated @Override public double[] toDoubleArray(final double[] a) { return toArray(a); } @Override public double[] toArray(final double[] a) { return collection.toArray(a); } @Override public boolean containsAll(DoubleCollection c) { return collection.containsAll(c); } @Override public boolean addAll(DoubleCollection c) { throw new UnsupportedOperationException(); } @Override public boolean removeAll(DoubleCollection c) { throw new UnsupportedOperationException(); } @Override public boolean retainAll(DoubleCollection c) { throw new UnsupportedOperationException(); } @Override public DoubleIterator doubleIterator() { return collection.doubleIterator(); } @Override public DoubleSpliterator doubleSpliterator() { return collection.doubleSpliterator(); } @Override public java.util.stream.DoubleStream doubleStream() { return collection.doubleStream(); } @Override public java.util.stream.DoubleStream doubleParallelStream() { return collection.doubleParallelStream(); } @Override public String toString() { return collection.toString(); } @Override public int hashCode() { return collection.hashCode(); } @Override public boolean equals(final Object o) { if (o == this) return true; return collection.equals(o); } } /** * Returns an unmodifiable collection backed by the specified collection. * * @param c the collection to be wrapped in an unmodifiable collection. * @return an unmodifiable view of the specified collection. * @see java.util.Collections#unmodifiableCollection(Collection) */ public static DoubleCollection unmodifiable(final DoubleCollection c) { return new UnmodifiableCollection(c); } /** A collection wrapper class for iterables. */ public static class IterableCollection extends AbstractDoubleCollection implements java.io.Serializable { private static final long serialVersionUID = -7046029254386353129L; protected final DoubleIterable iterable; protected IterableCollection(final DoubleIterable iterable) { this.iterable = Objects.requireNonNull(iterable); } @Override public int size() { long size = iterable.spliterator().getExactSizeIfKnown(); if (size >= 0) return (int)Math.min(Integer.MAX_VALUE, size); int c = 0; final DoubleIterator iterator = iterator(); while (iterator.hasNext()) { iterator.nextDouble(); c++; } return c; } @Override public boolean isEmpty() { return !iterable.iterator().hasNext(); } @Override public DoubleIterator iterator() { return iterable.iterator(); } @Override public DoubleSpliterator spliterator() { return iterable.spliterator(); } @Override public DoubleIterator doubleIterator() { return iterable.doubleIterator(); } @Override public DoubleSpliterator doubleSpliterator() { return iterable.doubleSpliterator(); } } /** * Returns an unmodifiable collection backed by the specified iterable. * * @param iterable the iterable object to be wrapped in an unmodifiable collection. * @return an unmodifiable collection view of the specified iterable. */ public static DoubleCollection asCollection(final DoubleIterable iterable) { if (iterable instanceof DoubleCollection) return (DoubleCollection)iterable; // TODO test for Collection but not our collection, and make a wrapper for it. return new IterableCollection(iterable); } /** * Helper class for size decreasing size estimation. * *

* Used to implement {@code toXWithExpectedSize} to prevent allocating a data structure big enough * for the full stream in every thread, when only one thread (typically the first one) is going to * need to "see" all of it at some point. * *

* Currently set to always assume a roughly split-by-two strategy from the * {@link java.util.Spliterator} backing the {@link java.util.stream.Stream} (or primitive * equivalent). This may perform worse for {@code Spliterator}s that don't (for example the ones * that wrap an {@link java.util.Iterator} as a {@code Spliterator}). This is quite rare in practice * however. But note that even in such cases, this would still perform no worse (modulo * some trivial amount) then the default "flat size for every list" method of combining. A way to * detect such cases and use a different size estimation strategy may come in the future. * *

* See the {@linkplain #SizeDecreasingSupplier constructor} for requirements of the {@link #builder} * functor. */ static class SizeDecreasingSupplier implements Supplier { static final int RECOMMENDED_MIN_SIZE = 8; final AtomicInteger suppliedCount = new AtomicInteger(0); final int expectedFinalSize; final IntFunction builder; /** * Construct this {@link SizeDecreasingSupplier}. * * @param expectedFinalSize The expected size of the entire remaining contents of the {@code Stream} * and thus what size the Collection holding the final results should try to be * preallocated to. * @param builder the builder function. *

* The input integer will be the size of the collection to preallocate. *

* It is recommended that you allocate a minimum size if the given {@code size} is small. * {@link #RECOMMENDED_MIN_SIZE} gives a good enough ballpark for most cases. *

* The subclass is free to use the default constructor for the Collection construction * instead of the {@code size} given if {@code size} falls below the default size used * for the default initial capacity for that Collection implementation. Often such * default constructors contain additional optimizations that giving an explicit initial * capacity would not do (even if given the default capacity as the initial capacity * explicitly). *

* {@link Supplier#get() get()} of the {@link IntFunction} must return non-{@code null}. */ SizeDecreasingSupplier(int expectedFinalSize, IntFunction builder) { this.expectedFinalSize = expectedFinalSize; this.builder = builder; } // This method may be worth pulling into a shared superclass. @Override public C get() { // The "correct" splitting (assuming split by two) would be // expectedFinalSize / floor(ln_2(++suppliedCount)). But that seems too much trouble to be worth it. // Instead we will take a simple harmonically decreasing ratio (1, 1/2, 1/3, 1/4) // // Round up int math (to round up, not down) adapted from https://stackoverflow.com/a/503201. int expectedNeededNextSize = 1 + ((expectedFinalSize - 1) / suppliedCount.incrementAndGet()); if (expectedNeededNextSize < 0) { // Overflow (and weird below zero results) failsafe expectedNeededNextSize = RECOMMENDED_MIN_SIZE; } return builder.apply(expectedNeededNextSize); } } }





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