// // Decompiled by Procyon v0.6.0 // package it.unimi.dsi.fastutil.doubles; import java.util.Iterator; import java.util.ListIterator; import java.util.Spliterator; import java.util.Comparator; import java.util.Objects; import java.util.function.UnaryOperator; import java.util.function.DoubleUnaryOperator; import java.util.Collection; import it.unimi.dsi.fastutil.Size64; import java.util.RandomAccess; import java.util.List; public interface DoubleList extends List, Comparable>, DoubleCollection { DoubleListIterator iterator(); default DoubleSpliterator spliterator() { if (this instanceof RandomAccess) { return new AbstractDoubleList.IndexBasedSpliterator(this, 0); } return DoubleSpliterators.asSpliterator(this.iterator(), Size64.sizeOf(this), 16720); } DoubleListIterator listIterator(); DoubleListIterator listIterator(final int p0); DoubleList subList(final int p0, final int p1); void size(final int p0); void getElements(final int p0, final double[] p1, final int p2, final int p3); void removeElements(final int p0, final int p1); void addElements(final int p0, final double[] p1); void addElements(final int p0, final double[] p1, final int p2, final int p3); default void setElements(final double[] a) { this.setElements(0, a); } default void setElements(final int index, final double[] a) { this.setElements(index, a, 0, a.length); } default void setElements(final int index, final double[] a, final int offset, final int length) { if (index < 0) { throw new IndexOutOfBoundsException("Index (" + index + ") is negative"); } if (index > this.size()) { throw new IndexOutOfBoundsException("Index (" + index + ") is greater than list size (" + this.size() + ")"); } DoubleArrays.ensureOffsetLength(a, offset, length); if (index + length > this.size()) { throw new IndexOutOfBoundsException("End index (" + (index + length) + ") is greater than list size (" + this.size() + ")"); } final DoubleListIterator iter = this.listIterator(index); int i = 0; while (i < length) { iter.nextDouble(); iter.set(a[offset + i++]); } } boolean add(final double p0); void add(final int p0, final double p1); @Deprecated default void add(final int index, final Double key) { this.add(index, (double)key); } boolean addAll(final int p0, final DoubleCollection p1); double set(final int p0, final double p1); default void replaceAll(final DoubleUnaryOperator operator) { final DoubleListIterator iter = this.listIterator(); while (iter.hasNext()) { iter.set(operator.applyAsDouble(iter.nextDouble())); } } default void replaceAll(final it.unimi.dsi.fastutil.doubles.DoubleUnaryOperator operator) { this.replaceAll((DoubleUnaryOperator)operator); } @Deprecated default void replaceAll(final UnaryOperator operator) { Objects.requireNonNull(operator); DoubleUnaryOperator operator2; if (operator instanceof DoubleUnaryOperator) { operator2 = (DoubleUnaryOperator)operator; } else { Objects.requireNonNull(operator); operator2 = operator::apply; } this.replaceAll(operator2); } double getDouble(final int p0); int indexOf(final double p0); int lastIndexOf(final double p0); @Deprecated default boolean contains(final Object key) { return super.contains(key); } @Deprecated default Double get(final int index) { return this.getDouble(index); } @Deprecated default int indexOf(final Object o) { return this.indexOf((double)o); } @Deprecated default int lastIndexOf(final Object o) { return this.lastIndexOf((double)o); } @Deprecated default boolean add(final Double k) { return this.add((double)k); } double removeDouble(final int p0); @Deprecated default boolean remove(final Object key) { return super.remove(key); } @Deprecated default Double remove(final int index) { return this.removeDouble(index); } @Deprecated default Double set(final int index, final Double k) { return this.set(index, (double)k); } default boolean addAll(final int index, final DoubleList l) { return this.addAll(index, (DoubleCollection)l); } default boolean addAll(final DoubleList l) { return this.addAll(this.size(), l); } default DoubleList of() { return DoubleImmutableList.of(); } default DoubleList of(final double e) { return DoubleLists.singleton(e); } default DoubleList of(final double e0, final double e1) { return DoubleImmutableList.of(new double[] { e0, e1 }); } default DoubleList of(final double e0, final double e1, final double e2) { return DoubleImmutableList.of(new double[] { e0, e1, e2 }); } default DoubleList of(final double... a) { switch (a.length) { case 0: { return of(); } case 1: { return of(a[0]); } default: { return DoubleImmutableList.of(a); } } } @Deprecated default void sort(final Comparator comparator) { this.sort(DoubleComparators.asDoubleComparator(comparator)); } default void sort(final DoubleComparator comparator) { final double[] elements = this.toDoubleArray(); if (comparator == null) { DoubleArrays.stableSort(elements); } else { DoubleArrays.stableSort(elements, comparator); } this.setElements(elements); } @Deprecated default void unstableSort(final Comparator comparator) { this.unstableSort(DoubleComparators.asDoubleComparator(comparator)); } default void unstableSort(final DoubleComparator comparator) { final double[] elements = this.toDoubleArray(); if (comparator == null) { DoubleArrays.unstableSort(elements); } else { DoubleArrays.unstableSort(elements, comparator); } this.setElements(elements); } }