// // Decompiled by Procyon v0.6.0 // package it.unimi.dsi.fastutil.doubles; import java.util.Spliterator; import java.io.Serializable; import java.util.NoSuchElementException; import it.unimi.dsi.fastutil.BigListIterator; import java.util.Objects; import it.unimi.dsi.fastutil.BigList; import it.unimi.dsi.fastutil.HashCommon; import it.unimi.dsi.fastutil.BigArrays; import java.util.function.DoubleConsumer; import java.util.RandomAccess; import java.util.Iterator; import java.util.Collection; public abstract class AbstractDoubleBigList extends AbstractDoubleCollection implements DoubleBigList, DoubleStack { protected AbstractDoubleBigList() { } protected void ensureIndex(final long index) { if (index < 0L) { throw new IndexOutOfBoundsException("Index (" + index + ") is negative"); } if (index > this.size64()) { throw new IndexOutOfBoundsException("Index (" + index + ") is greater than list size (" + this.size64() + ")"); } } protected void ensureRestrictedIndex(final long index) { if (index < 0L) { throw new IndexOutOfBoundsException("Index (" + index + ") is negative"); } if (index >= this.size64()) { throw new IndexOutOfBoundsException("Index (" + index + ") is greater than or equal to list size (" + this.size64() + ")"); } } @Override public void add(final long index, final double k) { throw new UnsupportedOperationException(); } @Override public boolean add(final double k) { this.add(this.size64(), k); return true; } @Override public double removeDouble(final long i) { throw new UnsupportedOperationException(); } @Override public double set(final long index, final double k) { throw new UnsupportedOperationException(); } @Override public boolean addAll(long index, final Collection c) { this.ensureIndex(index); final Iterator i = c.iterator(); final boolean retVal = i.hasNext(); while (i.hasNext()) { this.add(index++, (Double)i.next()); } return retVal; } @Override public boolean addAll(final Collection c) { return this.addAll(this.size64(), c); } @Override public DoubleBigListIterator iterator() { return this.listIterator(); } @Override public DoubleBigListIterator listIterator() { return this.listIterator(0L); } @Override public DoubleBigListIterator listIterator(final long index) { this.ensureIndex(index); return new DoubleBigListIterators.AbstractIndexBasedBigListIterator(0L, index) { @Override protected final double get(final long i) { return AbstractDoubleBigList.this.getDouble(i); } @Override protected final void add(final long i, final double k) { AbstractDoubleBigList.this.add(i, k); } @Override protected final void set(final long i, final double k) { AbstractDoubleBigList.this.set(i, k); } @Override protected final void remove(final long i) { AbstractDoubleBigList.this.removeDouble(i); } @Override protected final long getMaxPos() { return AbstractDoubleBigList.this.size64(); } }; } @Override public boolean contains(final double k) { return this.indexOf(k) >= 0L; } @Override public long indexOf(final double k) { final DoubleBigListIterator i = this.listIterator(); while (i.hasNext()) { final double e = i.nextDouble(); if (Double.doubleToLongBits(k) == Double.doubleToLongBits(e)) { return i.previousIndex(); } } return -1L; } @Override public long lastIndexOf(final double k) { final DoubleBigListIterator i = this.listIterator(this.size64()); while (i.hasPrevious()) { final double e = i.previousDouble(); if (Double.doubleToLongBits(k) == Double.doubleToLongBits(e)) { return i.nextIndex(); } } return -1L; } @Override public void size(final long size) { long i = this.size64(); if (size > i) { while (i++ < size) { this.add(0.0); } } else { while (i-- != size) { this.remove(i); } } } @Override public DoubleBigList subList(final long from, final long to) { this.ensureIndex(from); this.ensureIndex(to); if (from > to) { throw new IndexOutOfBoundsException("Start index (" + from + ") is greater than end index (" + to + ")"); } return (this instanceof RandomAccess) ? new DoubleRandomAccessSubList(this, from, to) : new DoubleSubList(this, from, to); } @Override public void forEach(final DoubleConsumer action) { if (this instanceof RandomAccess) { for (long i = 0L, max = this.size64(); i < max; ++i) { action.accept(this.getDouble(i)); } } else { super.forEach(action); } } @Override public void removeElements(final long from, final long to) { this.ensureIndex(to); final DoubleBigListIterator i = this.listIterator(from); long n = to - from; if (n < 0L) { throw new IllegalArgumentException("Start index (" + from + ") is greater than end index (" + to + ")"); } while (n-- != 0L) { i.nextDouble(); i.remove(); } } @Override public void addElements(long index, final double[][] a, long offset, long length) { this.ensureIndex(index); BigArrays.ensureOffsetLength(a, offset, length); if (this instanceof RandomAccess) { while (length-- != 0L) { this.add(index++, BigArrays.get(a, offset++)); } } else { final DoubleBigListIterator iter = this.listIterator(index); while (length-- != 0L) { iter.add(BigArrays.get(a, offset++)); } } } @Override public void addElements(final long index, final double[][] a) { this.addElements(index, a, 0L, BigArrays.length(a)); } @Override public void getElements(final long from, final double[][] a, long offset, long length) { this.ensureIndex(from); BigArrays.ensureOffsetLength(a, offset, length); if (from + length > this.size64()) { throw new IndexOutOfBoundsException("End index (" + (from + length) + ") is greater than list size (" + this.size64() + ")"); } if (this instanceof RandomAccess) { long current = from; while (length-- != 0L) { BigArrays.set(a, offset++, this.getDouble(current++)); } } else { final DoubleBigListIterator i = this.listIterator(from); while (length-- != 0L) { BigArrays.set(a, offset++, i.nextDouble()); } } } @Override public void setElements(final long index, final double[][] a, final long offset, final long length) { this.ensureIndex(index); BigArrays.ensureOffsetLength(a, offset, length); if (index + length > this.size64()) { throw new IndexOutOfBoundsException("End index (" + (index + length) + ") is greater than list size (" + this.size64() + ")"); } if (this instanceof RandomAccess) { for (long i = 0L; i < length; ++i) { this.set(i + index, BigArrays.get(a, i + offset)); } } else { final DoubleBigListIterator iter = this.listIterator(index); long j = 0L; while (j < length) { iter.nextDouble(); iter.set(BigArrays.get(a, offset + j++)); } } } @Override public void clear() { this.removeElements(0L, this.size64()); } @Deprecated @Override public int size() { return (int)Math.min(2147483647L, this.size64()); } @Override public int hashCode() { final DoubleIterator i = this.iterator(); int h = 1; long s = this.size64(); while (s-- != 0L) { final double k = i.nextDouble(); h = 31 * h + HashCommon.double2int(k); } return h; } @Override public boolean equals(final Object o) { if (o == this) { return true; } if (!(o instanceof BigList)) { return false; } final BigList l = (BigList)o; long s = this.size64(); if (s != l.size64()) { return false; } if (l instanceof DoubleBigList) { final DoubleBigListIterator i1 = this.listIterator(); final DoubleBigListIterator i2 = ((DoubleBigList)l).listIterator(); while (s-- != 0L) { if (i1.nextDouble() != i2.nextDouble()) { return false; } } return true; } final BigListIterator i3 = this.listIterator(); final BigListIterator i4 = l.listIterator(); while (s-- != 0L) { if (!Objects.equals(i3.next(), i4.next())) { return false; } } return true; } @Override public int compareTo(final BigList l) { if (l == this) { return 0; } if (l instanceof DoubleBigList) { final DoubleBigListIterator i1 = this.listIterator(); final DoubleBigListIterator i2 = ((DoubleBigList)l).listIterator(); while (i1.hasNext() && i2.hasNext()) { final double e1 = i1.nextDouble(); final double e2 = i2.nextDouble(); final int r; if ((r = Double.compare(e1, e2)) != 0) { return r; } } return i2.hasNext() ? -1 : (i1.hasNext() ? 1 : 0); } final BigListIterator i3 = this.listIterator(); final BigListIterator i4 = l.listIterator(); while (i3.hasNext() && i4.hasNext()) { final int r; if ((r = i3.next().compareTo(i4.next())) != 0) { return r; } } return i4.hasNext() ? -1 : (i3.hasNext() ? 1 : 0); } @Override public void push(final double o) { this.add(o); } @Override public double popDouble() { if (this.isEmpty()) { throw new NoSuchElementException(); } return this.removeDouble(this.size64() - 1L); } @Override public double topDouble() { if (this.isEmpty()) { throw new NoSuchElementException(); } return this.getDouble(this.size64() - 1L); } @Override public double peekDouble(final int i) { return this.getDouble(this.size64() - 1L - i); } @Override public boolean rem(final double k) { final long index = this.indexOf(k); if (index == -1L) { return false; } this.removeDouble(index); return true; } @Override public boolean addAll(final long index, final DoubleCollection c) { return this.addAll(index, (Collection)c); } @Override public boolean addAll(final DoubleCollection c) { return this.addAll(this.size64(), c); } @Deprecated @Override public void add(final long index, final Double ok) { this.add(index, (double)ok); } @Deprecated @Override public Double set(final long index, final Double ok) { return this.set(index, (double)ok); } @Deprecated @Override public Double get(final long index) { return this.getDouble(index); } @Deprecated @Override public long indexOf(final Object ok) { return this.indexOf((double)ok); } @Deprecated @Override public long lastIndexOf(final Object ok) { return this.lastIndexOf((double)ok); } @Deprecated @Override public Double remove(final long index) { return this.removeDouble(index); } @Deprecated @Override public void push(final Double o) { this.push((double)o); } @Deprecated @Override public Double pop() { return this.popDouble(); } @Deprecated @Override public Double top() { return this.topDouble(); } @Deprecated @Override public Double peek(final int i) { return this.peekDouble(i); } @Override public String toString() { final StringBuilder s = new StringBuilder(); final DoubleIterator i = this.iterator(); long n = this.size64(); boolean first = true; s.append("["); while (n-- != 0L) { if (first) { first = false; } else { s.append(", "); } final double k = i.nextDouble(); s.append(String.valueOf(k)); } s.append("]"); return s.toString(); } static final class IndexBasedSpliterator extends DoubleBigSpliterators.LateBindingSizeIndexBasedSpliterator { final DoubleBigList l; IndexBasedSpliterator(final DoubleBigList l, final long pos) { super(pos); this.l = l; } IndexBasedSpliterator(final DoubleBigList l, final long pos, final long maxPos) { super(pos, maxPos); this.l = l; } @Override protected final long getMaxPosFromBackingStore() { return this.l.size64(); } @Override protected final double get(final long i) { return this.l.getDouble(i); } @Override protected final IndexBasedSpliterator makeForSplit(final long pos, final long maxPos) { return new IndexBasedSpliterator(this.l, pos, maxPos); } } public static class DoubleSubList extends AbstractDoubleBigList implements Serializable { private static final long serialVersionUID = -7046029254386353129L; protected final DoubleBigList l; protected final long from; protected long to; public DoubleSubList(final DoubleBigList l, final long from, final long to) { this.l = l; this.from = from; this.to = to; } private boolean assertRange() { assert this.from <= this.l.size64(); assert this.to <= this.l.size64(); assert this.to >= this.from; return true; } @Override public boolean add(final double k) { this.l.add(this.to, k); ++this.to; assert this.assertRange(); return true; } @Override public void add(final long index, final double k) { this.ensureIndex(index); this.l.add(this.from + index, k); ++this.to; assert this.assertRange(); } @Override public boolean addAll(final long index, final Collection c) { this.ensureIndex(index); this.to += c.size(); return this.l.addAll(this.from + index, c); } @Override public double getDouble(final long index) { this.ensureRestrictedIndex(index); return this.l.getDouble(this.from + index); } @Override public double removeDouble(final long index) { this.ensureRestrictedIndex(index); --this.to; return this.l.removeDouble(this.from + index); } @Override public double set(final long index, final double k) { this.ensureRestrictedIndex(index); return this.l.set(this.from + index, k); } @Override public long size64() { return this.to - this.from; } @Override public void getElements(final long from, final double[][] a, final long offset, final long length) { this.ensureIndex(from); if (from + length > this.size64()) { throw new IndexOutOfBoundsException("End index (" + from + length + ") is greater than list size (" + this.size64() + ")"); } this.l.getElements(this.from + from, a, offset, length); } @Override public void removeElements(final long from, final long to) { this.ensureIndex(from); this.ensureIndex(to); this.l.removeElements(this.from + from, this.from + to); this.to -= to - from; assert this.assertRange(); } @Override public void addElements(final long index, final double[][] a, final long offset, final long length) { this.ensureIndex(index); this.l.addElements(this.from + index, a, offset, length); this.to += length; assert this.assertRange(); } @Override public DoubleBigListIterator listIterator(final long index) { this.ensureIndex(index); return (this.l instanceof RandomAccess) ? new RandomAccessIter(index) : new ParentWrappingIter(this.l.listIterator(index + this.from)); } @Override public DoubleSpliterator spliterator() { return (this.l instanceof RandomAccess) ? new IndexBasedSpliterator(this.l, this.from, this.to) : super.spliterator(); } @Override public DoubleBigList subList(final long from, final long to) { this.ensureIndex(from); this.ensureIndex(to); if (from > to) { throw new IllegalArgumentException("Start index (" + from + ") is greater than end index (" + to + ")"); } return new DoubleSubList(this, from, to); } @Override public boolean rem(final double k) { final long index = this.indexOf(k); if (index == -1L) { return false; } --this.to; this.l.removeDouble(this.from + index); assert this.assertRange(); return true; } @Override public boolean addAll(final long index, final DoubleCollection c) { return super.addAll(index, c); } @Override public boolean addAll(final long index, final DoubleBigList l) { return super.addAll(index, l); } private final class RandomAccessIter extends DoubleBigListIterators.AbstractIndexBasedBigListIterator { RandomAccessIter(final long pos) { super(0L, pos); } @Override protected final double get(final long i) { return DoubleSubList.this.l.getDouble(DoubleSubList.this.from + i); } @Override protected final void add(final long i, final double k) { DoubleSubList.this.add(i, k); } @Override protected final void set(final long i, final double k) { DoubleSubList.this.set(i, k); } @Override protected final void remove(final long i) { DoubleSubList.this.removeDouble(i); } @Override protected final long getMaxPos() { return DoubleSubList.this.to - DoubleSubList.this.from; } @Override public void add(final double k) { super.add(k); assert DoubleSubList.this.assertRange(); } @Override public void remove() { super.remove(); assert DoubleSubList.this.assertRange(); } } private class ParentWrappingIter implements DoubleBigListIterator { private DoubleBigListIterator parent; ParentWrappingIter(final DoubleBigListIterator parent) { this.parent = parent; } @Override public long nextIndex() { return this.parent.nextIndex() - DoubleSubList.this.from; } @Override public long previousIndex() { return this.parent.previousIndex() - DoubleSubList.this.from; } @Override public boolean hasNext() { return this.parent.nextIndex() < DoubleSubList.this.to; } @Override public boolean hasPrevious() { return this.parent.previousIndex() >= DoubleSubList.this.from; } @Override public double nextDouble() { if (!this.hasNext()) { throw new NoSuchElementException(); } return this.parent.nextDouble(); } @Override public double previousDouble() { if (!this.hasPrevious()) { throw new NoSuchElementException(); } return this.parent.previousDouble(); } @Override public void add(final double k) { this.parent.add(k); } @Override public void set(final double k) { this.parent.set(k); } @Override public void remove() { this.parent.remove(); } @Override public long back(final long n) { if (n < 0L) { throw new IllegalArgumentException("Argument must be nonnegative: " + n); } final long currentPos = this.parent.previousIndex(); long parentNewPos = currentPos - n; if (parentNewPos < DoubleSubList.this.from - 1L) { parentNewPos = DoubleSubList.this.from - 1L; } final long toSkip = parentNewPos - currentPos; return this.parent.back(toSkip); } @Override public long skip(final long n) { if (n < 0L) { throw new IllegalArgumentException("Argument must be nonnegative: " + n); } final long currentPos = this.parent.nextIndex(); long parentNewPos = currentPos + n; if (parentNewPos > DoubleSubList.this.to) { parentNewPos = DoubleSubList.this.to; } final long toSkip = parentNewPos - currentPos; return this.parent.skip(toSkip); } } } public static class DoubleRandomAccessSubList extends DoubleSubList implements RandomAccess { private static final long serialVersionUID = -107070782945191929L; public DoubleRandomAccessSubList(final DoubleBigList l, final long from, final long to) { super(l, from, to); } @Override public DoubleBigList subList(final long from, final long to) { this.ensureIndex(from); this.ensureIndex(to); if (from > to) { throw new IllegalArgumentException("Start index (" + from + ") is greater than end index (" + to + ")"); } return new DoubleRandomAccessSubList(this, from, to); } } }