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/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You 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 com.signalfx.shaded.apache.commons.lang3.util;

import java.io.Serializable;
import java.util.BitSet;
import java.util.Objects;
import java.util.stream.IntStream;

/**
 * A fluent {@link BitSet} with additional operations.
 * 

* Originally from Apache Commons VFS with more added to act as a fluent replacement for {@link java.util.BitSet}. *

* @since 3.13.0 */ public final class FluentBitSet implements Cloneable, Serializable { private static final long serialVersionUID = 1L; /** * Working BitSet. */ private final BitSet bitSet; /** * Creates a new bit set. All bits are initially {@code false}. */ public FluentBitSet() { this(new BitSet()); } /** * Creates a new instance for the given bit set. * * @param set The bit set to wrap. */ public FluentBitSet(final BitSet set) { this.bitSet = Objects.requireNonNull(set, "set"); } /** * Creates a bit set whose initial size is large enough to explicitly represent bits with indices in the range {@code 0} * through {@code nbits-1}. All bits are initially {@code false}. * * @param nbits the initial size of the bit set. * @throws NegativeArraySizeException if the specified initial size is negative. */ public FluentBitSet(final int nbits) { this(new BitSet(nbits)); } /** * Performs a logical AND of this target bit set with the argument bit set. This bit set is modified so that each * bit in it has the value {@code true} if and only if it both initially had the value {@code true} and the * corresponding bit in the bit set argument also had the value {@code true}. * * @param set a bit set. * @return this. */ public FluentBitSet and(final BitSet set) { bitSet.and(set); return this; } /** * Performs a logical AND of this target bit set with the argument bit set. This bit set is modified so that each * bit in it has the value {@code true} if and only if it both initially had the value {@code true} and the * corresponding bit in the bit set argument also had the value {@code true}. * * @param set a bit set. * @return this. */ public FluentBitSet and(final FluentBitSet set) { bitSet.and(set.bitSet); return this; } /** * Clears all of the bits in this {@link BitSet} whose corresponding bit is set in the specified {@link BitSet}. * * @param set the {@link BitSet} with which to mask this {@link BitSet}. * @return this. */ public FluentBitSet andNot(final BitSet set) { bitSet.andNot(set); return this; } /** * Clears all of the bits in this {@link BitSet} whose corresponding bit is set in the specified {@link BitSet}. * * @param set the {@link BitSet} with which to mask this {@link BitSet}. * @return this. */ public FluentBitSet andNot(final FluentBitSet set) { this.bitSet.andNot(set.bitSet); return this; } /** * Gets the wrapped bit set. * * @return the wrapped bit set. */ public BitSet bitSet() { return bitSet; } /** * Returns the number of bits set to {@code true} in this {@link BitSet}. * * @return the number of bits set to {@code true} in this {@link BitSet}. */ public int cardinality() { return bitSet.cardinality(); } /** * Sets all of the bits in this BitSet to {@code false}. * * @return this. */ public FluentBitSet clear() { bitSet.clear(); return this; } /** * Sets the bits specified by the indexes to {@code false}. * * @param bitIndexArray the index of the bit to be cleared. * @throws IndexOutOfBoundsException if the specified index is negative. * @return this. */ public FluentBitSet clear(final int... bitIndexArray) { for (final int e : bitIndexArray) { this.bitSet.clear(e); } return this; } /** * Sets the bit specified by the index to {@code false}. * * @param bitIndex the index of the bit to be cleared. * @throws IndexOutOfBoundsException if the specified index is negative. * @return this. */ public FluentBitSet clear(final int bitIndex) { bitSet.clear(bitIndex); return this; } /** * Sets the bits from the specified {@code fromIndex} (inclusive) to the specified {@code toIndex} (exclusive) to * {@code false}. * * @param fromIndex index of the first bit to be cleared. * @param toIndex index after the last bit to be cleared. * @throws IndexOutOfBoundsException if {@code fromIndex} is negative, or {@code toIndex} is negative, or * {@code fromIndex} is larger than {@code toIndex}. * @return this. */ public FluentBitSet clear(final int fromIndex, final int toIndex) { bitSet.clear(fromIndex, toIndex); return this; } /** * Cloning this {@link BitSet} produces a new {@link BitSet} that is equal to it. The clone of the bit set is another * bit set that has exactly the same bits set to {@code true} as this bit set. * * @return a clone of this bit set * @see #size() */ @Override public Object clone() { return new FluentBitSet((BitSet) bitSet.clone()); } @Override public boolean equals(final Object obj) { if (this == obj) { return true; } if (!(obj instanceof FluentBitSet)) { return false; } final FluentBitSet other = (FluentBitSet) obj; return Objects.equals(bitSet, other.bitSet); } /** * Sets the bit at the specified index to the complement of its current value. * * @param bitIndex the index of the bit to flip. * @throws IndexOutOfBoundsException if the specified index is negative. * @return this. */ public FluentBitSet flip(final int bitIndex) { bitSet.flip(bitIndex); return this; } /** * Sets each bit from the specified {@code fromIndex} (inclusive) to the specified {@code toIndex} (exclusive) to the * complement of its current value. * * @param fromIndex index of the first bit to flip. * @param toIndex index after the last bit to flip. * @throws IndexOutOfBoundsException if {@code fromIndex} is negative, or {@code toIndex} is negative, or * {@code fromIndex} is larger than {@code toIndex}. * @return this. */ public FluentBitSet flip(final int fromIndex, final int toIndex) { bitSet.flip(fromIndex, toIndex); return this; } /** * Returns the value of the bit with the specified index. The value is {@code true} if the bit with the index * {@code bitIndex} is currently set in this {@link BitSet}; otherwise, the result is {@code false}. * * @param bitIndex the bit index. * @return the value of the bit with the specified index. * @throws IndexOutOfBoundsException if the specified index is negative. */ public boolean get(final int bitIndex) { return bitSet.get(bitIndex); } /** * Returns a new {@link BitSet} composed of bits from this {@link BitSet} from {@code fromIndex} (inclusive) to * {@code toIndex} (exclusive). * * @param fromIndex index of the first bit to include. * @param toIndex index after the last bit to include. * @return a new {@link BitSet} from a range of this {@link BitSet}. * @throws IndexOutOfBoundsException if {@code fromIndex} is negative, or {@code toIndex} is negative, or * {@code fromIndex} is larger than {@code toIndex}. */ public FluentBitSet get(final int fromIndex, final int toIndex) { return new FluentBitSet(bitSet.get(fromIndex, toIndex)); } @Override public int hashCode() { return bitSet.hashCode(); } /** * Returns true if the specified {@link BitSet} has any bits set to {@code true} that are also set to {@code true} in * this {@link BitSet}. * * @param set {@link BitSet} to intersect with. * @return boolean indicating whether this {@link BitSet} intersects the specified {@link BitSet}. */ public boolean intersects(final BitSet set) { return bitSet.intersects(set); } /** * Returns true if the specified {@link BitSet} has any bits set to {@code true} that are also set to {@code true} in * this {@link BitSet}. * * @param set {@link BitSet} to intersect with. * @return boolean indicating whether this {@link BitSet} intersects the specified {@link BitSet}. */ public boolean intersects(final FluentBitSet set) { return bitSet.intersects(set.bitSet); } /** * Returns true if this {@link BitSet} contains no bits that are set to {@code true}. * * @return boolean indicating whether this {@link BitSet} is empty. */ public boolean isEmpty() { return bitSet.isEmpty(); } /** * Returns the "logical size" of this {@link BitSet}: the index of the highest set bit in the {@link BitSet} plus one. * Returns zero if the {@link BitSet} contains no set bits. * * @return the logical size of this {@link BitSet}. */ public int length() { return bitSet.length(); } /** * Returns the index of the first bit that is set to {@code false} that occurs on or after the specified starting index. * * @param fromIndex the index to start checking from (inclusive). * @return the index of the next clear bit. * @throws IndexOutOfBoundsException if the specified index is negative. */ public int nextClearBit(final int fromIndex) { return bitSet.nextClearBit(fromIndex); } /** * Returns the index of the first bit that is set to {@code true} that occurs on or after the specified starting index. * If no such bit exists then {@code -1} is returned. *

* To iterate over the {@code true} bits in a {@link BitSet}, use the following loop: *

* *
     * {@code
     * for (int i = bs.nextSetBit(0); i >= 0; i = bs.nextSetBit(i+1)) {
     *     // operate on index i here
     *     if (i == Integer.MAX_VALUE) {
     *         break; // or (i+1) would overflow
     *     }
     * }}
     * 
* * @param fromIndex the index to start checking from (inclusive). * @return the index of the next set bit, or {@code -1} if there is no such bit. * @throws IndexOutOfBoundsException if the specified index is negative. */ public int nextSetBit(final int fromIndex) { return bitSet.nextSetBit(fromIndex); } /** * Performs a logical OR of this bit set with the bit set argument. This bit set is modified so that a bit in it * has the value {@code true} if and only if it either already had the value {@code true} or the corresponding bit in * the bit set argument has the value {@code true}. * * @param set a bit set. * @return this. */ public FluentBitSet or(final BitSet set) { bitSet.or(set); return this; } /** * Performs a logical OR of this bit set with the bit set arguments. This bit set is modified so that a bit in it * has the value {@code true} if and only if it either already had the value {@code true} or the corresponding bit in * the bit set argument has the value {@code true}. * * @param set a bit set. * @return this. */ public FluentBitSet or(final FluentBitSet... set) { for (final FluentBitSet e : set) { this.bitSet.or(e.bitSet); } return this; } /** * Performs a logical OR of this bit set with the bit set argument. This bit set is modified so that a bit in it * has the value {@code true} if and only if it either already had the value {@code true} or the corresponding bit in * the bit set argument has the value {@code true}. * * @param set a bit set. * @return this. */ public FluentBitSet or(final FluentBitSet set) { this.bitSet.or(set.bitSet); return this; } /** * Returns the index of the nearest bit that is set to {@code false} that occurs on or before the specified starting * index. If no such bit exists, or if {@code -1} is given as the starting index, then {@code -1} is returned. * * @param fromIndex the index to start checking from (inclusive). * @return the index of the previous clear bit, or {@code -1} if there is no such bit. * @throws IndexOutOfBoundsException if the specified index is less than {@code -1}. */ public int previousClearBit(final int fromIndex) { return bitSet.previousClearBit(fromIndex); } /** * Returns the index of the nearest bit that is set to {@code true} that occurs on or before the specified starting * index. If no such bit exists, or if {@code -1} is given as the starting index, then {@code -1} is returned. * *

* To iterate over the {@code true} bits in a {@link BitSet}, use the following loop: * *

     *  {@code
     * for (int i = bs.length(); (i = bs.previousSetBit(i-1)) >= 0; ) {
     *     // operate on index i here
     * }}
     * 
* * @param fromIndex the index to start checking from (inclusive) * @return the index of the previous set bit, or {@code -1} if there is no such bit * @throws IndexOutOfBoundsException if the specified index is less than {@code -1} */ public int previousSetBit(final int fromIndex) { return bitSet.previousSetBit(fromIndex); } /** * Sets the bit at the specified indexes to {@code true}. * * @param bitIndexArray a bit index array. * @throws IndexOutOfBoundsException if the specified index is negative. * @return this. */ public FluentBitSet set(final int... bitIndexArray) { for (final int e : bitIndexArray) { bitSet.set(e); } return this; } /** * Sets the bit at the specified index to {@code true}. * * @param bitIndex a bit index * @throws IndexOutOfBoundsException if the specified index is negative * @return this. */ public FluentBitSet set(final int bitIndex) { bitSet.set(bitIndex); return this; } /** * Sets the bit at the specified index to the specified value. * * @param bitIndex a bit index. * @param value a boolean value to set. * @throws IndexOutOfBoundsException if the specified index is negative. * @return this. */ public FluentBitSet set(final int bitIndex, final boolean value) { bitSet.set(bitIndex, value); return this; } /** * Sets the bits from the specified {@code fromIndex} (inclusive) to the specified {@code toIndex} (exclusive) to * {@code true}. * * @param fromIndex index of the first bit to be set. * @param toIndex index after the last bit to be set. * @throws IndexOutOfBoundsException if {@code fromIndex} is negative, or {@code toIndex} is negative, or * {@code fromIndex} is larger than {@code toIndex}. * @return this. */ public FluentBitSet set(final int fromIndex, final int toIndex) { bitSet.set(fromIndex, toIndex); return this; } /** * Sets the bits from the specified {@code fromIndex} (inclusive) to the specified {@code toIndex} (exclusive) to the * specified value. * * @param fromIndex index of the first bit to be set. * @param toIndex index after the last bit to be set. * @param value value to set the selected bits to. * @throws IndexOutOfBoundsException if {@code fromIndex} is negative, or {@code toIndex} is negative, or * {@code fromIndex} is larger than {@code toIndex}. * @return this. */ public FluentBitSet set(final int fromIndex, final int toIndex, final boolean value) { bitSet.set(fromIndex, toIndex, value); return this; } /** * Sets the bits from the specified {@code fromIndex} (inclusive) to the specified {@code toIndex} (exclusive) to * {@code true}. * * @param fromIndex index of the first bit to be set * @param toIndex index of the last bit to be set * @throws IndexOutOfBoundsException if {@code fromIndex} is negative, or {@code toIndex} is negative, or * {@code fromIndex} is larger than {@code toIndex} * @return this. */ public FluentBitSet setInclusive(final int fromIndex, final int toIndex) { bitSet.set(fromIndex, toIndex + 1); return this; } /** * Returns the number of bits of space actually in use by this {@link BitSet} to represent bit values. The maximum * element in the set is the size - 1st element. * * @return the number of bits currently in this bit set. */ public int size() { return bitSet.size(); } /** * Returns a stream of indices for which this {@link BitSet} contains a bit in the set state. The indices are returned * in order, from lowest to highest. The size of the stream is the number of bits in the set state, equal to the value * returned by the {@link #cardinality()} method. * *

* The bit set must remain constant during the execution of the terminal stream operation. Otherwise, the result of the * terminal stream operation is undefined. *

* * @return a stream of integers representing set indices. * @since 1.8 */ public IntStream stream() { return bitSet.stream(); } /** * Returns a new byte array containing all the bits in this bit set. * *

* More precisely, if: *

*
    *
  1. {@code byte[] bytes = s.toByteArray();}
  2. *
  3. then {@code bytes.length == (s.length()+7)/8} and
  4. *
  5. {@code s.get(n) == ((bytes[n/8] & (1<<(n%8))) != 0)}
  6. *
  7. for all {@code n < 8 * bytes.length}.
  8. *
* * @return a byte array containing a little-endian representation of all the bits in this bit set */ public byte[] toByteArray() { return bitSet.toByteArray(); } /** * Returns a new byte array containing all the bits in this bit set. * *

* More precisely, if: *

*
    *
  1. {@code long[] longs = s.toLongArray();}
  2. *
  3. then {@code longs.length == (s.length()+63)/64} and
  4. *
  5. {@code s.get(n) == ((longs[n/64] & (1L<<(n%64))) != 0)}
  6. *
  7. for all {@code n < 64 * longs.length}.
  8. *
* * @return a byte array containing a little-endian representation of all the bits in this bit set */ public long[] toLongArray() { return bitSet.toLongArray(); } @Override public String toString() { return bitSet.toString(); } /** * Performs a logical XOR of this bit set with the bit set argument. This bit set is modified so that a bit in it * has the value {@code true} if and only if one of the following statements holds: *
    *
  • The bit initially has the value {@code true}, and the corresponding bit in the argument has the value * {@code false}. *
  • The bit initially has the value {@code false}, and the corresponding bit in the argument has the value * {@code true}. *
* * @param set a bit set * @return this. */ public FluentBitSet xor(final BitSet set) { bitSet.xor(set); return this; } /** * Performs a logical XOR of this bit set with the bit set argument. This bit set is modified so that a bit in it * has the value {@code true} if and only if one of the following statements holds: *
    *
  • The bit initially has the value {@code true}, and the corresponding bit in the argument has the value * {@code false}. *
  • The bit initially has the value {@code false}, and the corresponding bit in the argument has the value * {@code true}. *
* * @param set a bit set * @return this. */ public FluentBitSet xor(final FluentBitSet set) { bitSet.xor(set.bitSet); return this; } }




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