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The DSI utilities are a mishmash of classes accumulated during the last twenty years in projects developed at the DSI (Dipartimento di Scienze dell'Informazione, i.e., Information Sciences Department), now DI (Dipartimento di Informatica, i.e., Informatics Department), of the Universita` degli Studi di Milano.

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package it.unimi.dsi.util;

/*
 * DSI utilities
 *
 * Copyright (C) 2003-2020 Paolo Boldi and Sebastiano Vigna
 *
 *  This library is free software; you can redistribute it and/or modify it
 *  under the terms of the GNU Lesser General Public License as published by the Free
 *  Software Foundation; either version 3 of the License, or (at your option)
 *  any later version.
 *
 *  This library is distributed in the hope that it will be useful, but
 *  WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
 *  or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU Lesser General Public License
 *  for more details.
 *
 *  You should have received a copy of the GNU Lesser General Public License
 *  along with this program; if not, see .
 *
 */

import static it.unimi.dsi.util.Intervals.EMPTY_INTERVAL;
import it.unimi.dsi.fastutil.ints.AbstractIntSortedSet;
import it.unimi.dsi.fastutil.ints.IntBidirectionalIterator;
import it.unimi.dsi.fastutil.ints.IntComparator;
import it.unimi.dsi.fastutil.ints.IntIterator;
import it.unimi.dsi.fastutil.ints.IntIterators;
import it.unimi.dsi.fastutil.ints.IntSet;
import it.unimi.dsi.fastutil.ints.IntSortedSet;

import java.io.Serializable;
import java.util.NoSuchElementException;


/** An interval of integers. An interval is defined
 *  by two integers, called its {@link #left} and {@link #right}
 *  extremes, and contains all integers x such that
 *  {@link #left} ≤ x ≤ {@link #right}.
 *
 * 

This class has no constructor: use the static factory methods * {@link #valueOf(int, int)} and {@link #valueOf(int)}, instead. * *

Instances of this class are immutable, and moreover implement * the {@link it.unimi.dsi.fastutil.ints.IntSortedSet} interface. The * {@linkplain #equals(Object) equality method} allows to check equality with * both sorted and non-sorted sets of integers. * *

To reduce garbage collection, * intervals made of one non-negative small points are precomputed and returned upon request. */ public final class Interval extends AbstractIntSortedSet implements IntSortedSet, Serializable { private static final long serialVersionUID = 1L; /** One-point intervals between 0 (inclusive) and this number (exclusive) are generated * from a pre-computed array of instances. */ private final static int MAX_SINGLE_POINT = 1024; /** The precomputed array of one-point intervals. */ private final static Interval[] POINT_INTERVAL = new Interval[MAX_SINGLE_POINT]; static { int i = MAX_SINGLE_POINT; while(i-- != 0) POINT_INTERVAL[i] = new Interval(i, i); } /** The left extreme of the interval. */ public final int left; /** The right extreme of the interval. */ public final int right; /** Builds an interval with given extremes. * *

You cannot generate an empty interval with this constructor. Use {@link Intervals#EMPTY_INTERVAL} instead. * * @param left the left extreme. * @param right the right extreme (which must be greater than * or equal to the left extreme). */ protected Interval(final int left, final int right) { this.left = left; this.right = right; } /** Returns an interval with given extremes. * *

You cannot obtain an empty interval with this factory method. Use {@link Intervals#EMPTY_INTERVAL} instead. * * @param left the left extreme. * @param right the right extreme (which must be greater than * or equal to the left extreme). * @return an interval with the given extremes. */ public static Interval valueOf(final int left, final int right) { if (left > right) throw new IllegalArgumentException("The left extreme (" + left + ") is greater than the right extreme (" + right + ")"); if (left == right) return valueOf(left); return new Interval(left, right); } /** Returns a one-point interval. * *

You cannot obtain an empty interval with this factory method. Use {@link Intervals#EMPTY_INTERVAL} instead. * * @param point a point. * @return a one-point interval */ public static Interval valueOf(final int point) { if (point >= 0 && point < MAX_SINGLE_POINT) return POINT_INTERVAL[point]; return new Interval(point, point); } /** Returns the interval length, that is, the number of integers * contained in the interval. * * @return the interval length. */ public int length() { return right - left + 1; } /** An alias for {@link #length()}. * @return the interval length. */ @Override public int size() { return length(); } /** Returns an iterator over the integers in this interval. * * @return an integer iterator over the elements in this interval. */ @Override public IntBidirectionalIterator iterator() { if (this == EMPTY_INTERVAL) return IntIterators.EMPTY_ITERATOR; // Note that fromTo() does NOT include the last integer. return IntIterators.fromTo(left, right + 1); } /** Returns an iterator over the integers in this interval larger than or equal to a given integer. * * @param from the starting integer. * @return an integer iterator over the elements in this interval. */ @Override public IntBidirectionalIterator iterator(final int from) { if (this == EMPTY_INTERVAL) return IntIterators.EMPTY_ITERATOR; // Note that fromTo() does NOT include the last integer. final IntBidirectionalIterator i = IntIterators.fromTo(left, right + 1); if (from >= left) i.skip(Math.min(length(), from + 1 - left)); return i; } /** Checks whether this interval contains the specified integer. * * @param x an integer. * @return whether this interval contains x, that is, * whether {@link #left} ≤ x ≤ {@link #right}. */ @Override public boolean contains(final int x) { return x >= left && x <= right; } /** Checks whether this interval contains the specified interval. * * @param interval an interval. * @return whether this interval contains (as a set) interval. */ public boolean contains(final Interval interval) { if (interval == EMPTY_INTERVAL) return true; if (this == EMPTY_INTERVAL) return false; return left <= interval.left && interval.right <= right; } /** Checks whether this interval would contain the specified integer if enlarged in both * directions by the specified radius. * * @param x an integer. * @param radius the radius. * @return whether this interval enlarged by radius would contain x, * e.g., whether {@link #left}−radiusx ≤ {@link #right}+radius. */ public boolean contains(final int x, final int radius) { if (this == EMPTY_INTERVAL) throw new IllegalArgumentException(); return x >= left - radius && x <= right + radius; } /** Checks whether this interval would contain the specified integer if enlarged in each * direction with the respective radius. * directions by the specified radius. * * @param x an integer. * @param leftRadius the left radius. * @param rightRadius the right radius. * @return whether this interval enlarged to the left by leftRadius * and to the right by rightRadius would contain x, * e.g., whether {@link #left}−leftRadiusx ≤ {@link #right}+rightRadius. */ public boolean contains(final int x, final int leftRadius, final int rightRadius) { if (this == EMPTY_INTERVAL) throw new IllegalArgumentException(); return x >= left - leftRadius && x <= right + rightRadius; } /** Compares this interval to an integer. * * @param x an integer. * @return a negative integer, zero, or a positive integer as x is positioned * at the left, belongs, or is positioned to the right of this interval, e.g., * as x < {@link #left}, * {@link #left} ≤ x ≤ {@link #right} or * {@link #right} < x. */ public int compareTo(final int x) { if (this == EMPTY_INTERVAL) throw new IllegalArgumentException(); if (x < left) return -1; if (x > right) return 1; return 0; } /** Compares this interval to an integer with a specified radius. * * @param x an integer. * @param radius the radius. * @return a negative integer, zero, or a positive integer as x is positioned * at the left, belongs, or is positioned to the right of this interval enlarged by radius, that is, * as x < {@link #left}−radius, * {@link #left}−radiusx ≤ {@link #right}+radius or * {@link #right}+radius < x. */ public int compareTo(final int x, final int radius) { if (this == EMPTY_INTERVAL) throw new IllegalArgumentException(); if (x < left - radius) return -1; if (x > right + radius) return 1; return 0; } /** Compares this interval to an integer with specified left and right radii. * * @param x an integer. * @param leftRadius the left radius. * @param rightRadius the right radius. * @return a negative integer, zero, or a positive integer as x is positioned * at the left, belongs, or is positioned to the right of this interval enlarged by leftRadius * on the left and rightRadius in the right, that is, * as x < {@link #left}−leftRadius, * {@link #left}−leftRadiusx ≤ {@link #right}+rightRadius or * {@link #right}+rightRadius < x. */ public int compareTo(final int x, final int leftRadius, final int rightRadius) { if (this == EMPTY_INTERVAL) throw new IllegalArgumentException(); if (x < left - leftRadius) return -1; if (x > right + rightRadius) return 1; return 0; } @Override public IntComparator comparator() { return null; } @Override public IntSortedSet headSet(final int to) { if (this == EMPTY_INTERVAL) return this; if (to > left) return to > right ? this : valueOf(left, to - 1); else return EMPTY_INTERVAL; } @Override public IntSortedSet tailSet(final int from) { if (this == EMPTY_INTERVAL) return this; if (from <= right) return from <= left ? this : valueOf(from, right); else return EMPTY_INTERVAL; } @Override public IntSortedSet subSet(final int from, final int to) { if (this == EMPTY_INTERVAL) return this; if (from > to) throw new IllegalArgumentException("Start element (" + from + ") is larger than end element (" + to + ")"); if (to <= left || from > right || from == to) return EMPTY_INTERVAL; if (from <= left && to > right) return this; return valueOf(Math.max(left, from), Math.min(right, to - 1)); } @Override public int firstInt() { if (this == EMPTY_INTERVAL) throw new NoSuchElementException(); return left; } @Override public int lastInt() { if (this == EMPTY_INTERVAL) throw new NoSuchElementException(); return right; } @Override public String toString() { if (this == EMPTY_INTERVAL) return "\u2205"; if (left == right) return "[" + left + "]"; return "[" + left + ".." + right + "]"; // Hoare's notation. } @Override public int hashCode() { return left * 23 + right; } /** Checks whether this interval is equal to another set of integers. * * @param o an object. * @return true if o is an ordered set of integer containing * the same element of this interval in the same order, or if o * is a set of integers containing the same elements of this interval. */ @Override public boolean equals(final Object o) { if (o instanceof Interval) return ((Interval)o).left == left && ((Interval)o).right == right; else if (o instanceof IntSortedSet) { // For sorted sets, we require the same order IntSortedSet s = (IntSortedSet) o; if (s.size() != length()) return false; int n = length(); IntIterator i = iterator(), j = s.iterator(); while(n-- != 0) if (i.nextInt() != j.nextInt()) return false; return true; } else if (o instanceof IntSet) { // For sets, we just require the same elements IntSet s = (IntSet) o; if (s.size() != length()) return false; int n = length(); IntIterator i = iterator(); while(n-- != 0) if (! s.contains(i.nextInt())) return false; return true; } else return false; } }





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