Package com.zaxxer.sparsebits

Class SparseBitSet

  • All Implemented Interfaces:
    java.io.Serializable, java.lang.Cloneable
    public class SparseBitSet
extends java.lang.Object
implements java.lang.Cloneable, java.io.Serializable
    This class implements a set of bits that grows as needed. Each bit of the bit set represents a boolean value. The values of a SparseBitSet are indexed by non-negative integers. Individual indexed values may be examined, set, cleared, or modified by logical operations. One SparseBitSet or logical value may be used to modify the contents of (another) SparseBitSet through logical AND, logical inclusive OR, logical exclusive OR, and And NOT operations over all or part of the bit sets.

    All values in a bit set initially have the value false.

    Every bit set has a current size, which is the number of bits of space nominally in use by the bit set from the first set bit to just after the last set bit. The length of the bit set effectively tells the position available after the last bit of the SparseBitSet.

    The maximum cardinality of a SparseBitSet is Integer.MAX_VALUE, which means the bits of a SparseBitSet are labelled 0 .. Integer.MAX_VALUE − 1. After the last set bit of a SparseBitSet, any attempt to find a subsequent bit (nextSetBit()), will return an value of −1. If an attempt is made to use nextClearBit(), and all the bits are set from the starting position of the search to the bit labelled Integer.MAX_VALUE − 1, then similarly −1 will be returned.

    Unless otherwise noted, passing a null parameter to any of the methods in a SparseBitSet will result in a NullPointerException.

    A SparseBitSet is not safe for multi-threaded use without external synchronization.

    Since:
    1.6
    Version:
    1.0, 2009-03-17
    See Also:
    Serialized Form

    • Field Summary

      Fields 
      Modifier and Type Field Description
      protected static SparseBitSet.AndNotStrategy andNotStrategy
      Word and block andNot strategy.
      protected static SparseBitSet.AndStrategy andStrategy
      Word and block and strategy.
      protected long[][][] bits
      The storage for this SparseBitSet.
      protected int bitsLength
      For the current size of the bits array, this is the maximum possible length of the bit set, i.e., the index of the last possible bit, plus one.
      protected SparseBitSet.Cache cache
      Holds reference to the cache of statistics values computed by the UpdateStrategy
      protected static SparseBitSet.ClearStrategy clearStrategy
      Word and block clear strategy.
      protected int compactionCount
      This value controls for format of the toString() output.
      (package private) static int compactionCountDefault
      The compaction count default.
      protected static SparseBitSet.CopyStrategy copyStrategy
      Word and block copy strategy.
      protected SparseBitSet.EqualsStrategy equalsStrategy
      Word and block equals strategy.
      protected static SparseBitSet.FlipStrategy flipStrategy
      Word and block flip strategy.
      protected static int INDEX_SIZE
      The number of bits in a positive integer, and the size of permitted index of a bit in the bit set.
      protected static SparseBitSet.IntersectsStrategy intersectsStrategy
      Word and block intersects strategy.
      protected static int LENGTH2
      LENGTH2 is the number of entries in the any level2 area.
      protected static int LENGTH2_SIZE
      LENGTH2_SIZE is maximum index of a LEVEL2 page.
      protected static int LENGTH3
      LENGTH3 is the number of entries in the any level3 block.
      protected static int LENGTH3_SIZE
      LENGTH3_SIZE is maximum index of a LEVEL3 page.
      protected static int LENGTH4
      The number of bits in a long value.
      protected static int LENGTH4_SIZE
      LENGTH4_SIZE is maximum index of a bit in a LEVEL4 word.
      protected static int LEVEL1
      LEVEL1 is the number of bits of the level1 address.
      protected static int LEVEL2
      LEVEL2 is the number of bits of the level2 address.
      protected static int LEVEL3
      LEVEL3 is the number of bits of the level3 address.
      protected static int LEVEL4
      The label (index) of a bit in the bit set is essentially broken into 4 "levels".
      protected static int MASK2
      MASK2 is the mask to extract the LEVEL2 address from a word index (after shifting by SHIFT3 and SHIFT2).
      protected static int MASK3
      MASK3 is the mask to extract the LEVEL3 address from a word index (after shifting by SHIFT3).
      protected static int MAX_LENGTH1
      MAX_LENGTH1 is the maximum number of entries in the level1 set array.
      protected static SparseBitSet.OrStrategy orStrategy
      Word and block or strategy.
      private static long serialVersionUID
      serialVersionUID
      protected static SparseBitSet.SetStrategy setStrategy
      Word and block set strategy.
      protected static int SHIFT1
      SHIFT1 is the shift to bring the level1 address (from the word index) to the right end (i.e., after shifting by SHIFT3).
      protected static int SHIFT2
      SHIFT2 is the shift to bring the level2 address (from the word index) to the right end (i.e., after shifting by SHIFT3).
      protected static int SHIFT3
      The shift to create the word index.
      protected long[] spare
      A spare level 3 block is kept for use when scanning.
      protected static int UNIT
      UNIT is the greatest number of bits that can be held in one level1 entry.
      protected SparseBitSet.UpdateStrategy updateStrategy
      Word and block update strategy.
      protected static SparseBitSet.XorStrategy xorStrategy
      Word and block xor strategy.
      (package private) static long[] ZERO_BLOCK
      An empty level 3 block is kept for use when scanning.

    • Constructor Summary

      Constructors 
      Modifier Constructor Description
        SparseBitSet()
      Constructs an empty bit set with the default initial size.
        SparseBitSet​(int nbits)
      Creates a bit set whose initial size is large enough to efficiently represent bits with indices in the range 0 through at least nbits-1.
      protected SparseBitSet​(int capacity, int compactionCount)
      Constructor for a new (sparse) bit set.

    • Method Summary

      All Methods Static Methods Instance Methods Concrete Methods 
      Modifier and Type Method Description
      void and​(int i, boolean value)
      Performs a logical AND of the addressed target bit with the argument value.
      void and​(int i, int j, SparseBitSet b)
      Performs a logical AND of this target bit set with the argument bit set within the given range of bits.
      void and​(SparseBitSet b)
      Performs a logical AND of this target bit set with the argument bit set.
      static SparseBitSet and​(SparseBitSet a, SparseBitSet b)
      Performs a logical AND of the two given SparseBitSets.
      void andNot​(int i, boolean value)
      Performs a logical AndNOT of the addressed target bit with the argument value.
      void andNot​(int i, int j, SparseBitSet b)
      Performs a logical AndNOT of this target bit set with the argument bit set within the given range of bits.
      void andNot​(SparseBitSet b)
      Performs a logical AndNOT of this target bit set with the argument bit set.
      static SparseBitSet andNot​(SparseBitSet a, SparseBitSet b)
      Creates a bit set from thie first SparseBitSet whose corresponding bits are cleared by the set bits of the second SparseBitSet.
      int cardinality()
      Returns the number of bits set to true in this SparseBitSet.
      void clear()
      Sets all of the bits in this SparseBitSet to false.
      void clear​(int i)
      Sets the bit at the specified index to false.
      void clear​(int i, int j)
      Sets the bits from the specified i (inclusive) to the specified j (exclusive) to false.
      SparseBitSet clone()
      Cloning this SparseBitSet produces a new SparseBitSet that is equal() to it.
      protected void constructorHelper()
      Intializes all the additional objects required for correct operation.
      boolean equals​(java.lang.Object obj)
      Compares this object against the specified object.
      void flip​(int i)
      Sets the bit at the specified index to the complement of its current value.
      void flip​(int i, int j)
      Sets each bit from the specified i (inclusive) to the specified j (exclusive) to the complement of its current value.
      boolean get​(int i)
      Returns the value of the bit with the specified index.
      SparseBitSet get​(int i, int j)
      Returns a new SparseBitSet composed of bits from this SparseBitSet from i (inclusive) to j (exclusive).
      int hashCode()
      Returns a hash code value for this bit set.
      boolean intersects​(int i, int j, SparseBitSet b)
      Returns true if the specified SparseBitSet has any bits within the given range i (inclusive) to j (exclusive) set to true that are also set to true in the same range of this SparseBitSet.
      boolean intersects​(SparseBitSet b)
      Returns true if the specified SparseBitSet has any bits set to true that are also set to true in this SparseBitSet.
      boolean isEmpty()
      Returns true if this SparseBitSet contains no bits that are set to true.
      int length()
      Returns the "logical length" of this SparseBitSet: the index of the highest set bit in the SparseBitSet plus one.
      int nextClearBit​(int i)
      Returns the index of the first bit that is set to false that occurs on or after the specified starting index.
      int nextSetBit​(int i)
      Returns the index of the first bit that is set to true that occurs on or after the specified starting index.
      protected void nullify​(int start)
      Clear out a part of the set array with nulls, from the given start to the end of the array.
      void or​(int i, boolean value)
      Performs a logical OR of the addressed target bit with the argument value.
      void or​(int i, int j, SparseBitSet b)
      Performs a logical OR of the addressed target bit with the argument value within the given range.
      void or​(SparseBitSet b)
      Performs a logical OR of this bit set with the bit set argument.
      static SparseBitSet or​(SparseBitSet a, SparseBitSet b)
      Performs a logical OR of the two given SparseBitSets.
      int previousClearBit​(int i)
      Returns the index of the nearest bit that is set to false that occurs on or before the specified starting index.
      int previousSetBit​(int i)
      Returns the index of the nearest bit that is set to true that occurs on or before the specified starting index.
      private void readObject​(java.io.ObjectInputStream s)
      Reconstitute the SparseBitSet instance from a stream (i.e., deserialize it).
      protected void resize​(int index)
      Resize the bit array.
      void set​(int i)
      Sets the bit at the specified index.
      void set​(int i, boolean value)
      Sets the bit at the specified index to the specified value.
      void set​(int i, int j)
      Sets the bits from the specified i (inclusive) to the specified j (exclusive) to true.
      void set​(int i, int j, boolean value)
      Sets the bits from the specified i (inclusive) to the specified j (exclusive) to the specified value.
      protected void setScanner​(int i, int j, SparseBitSet b, SparseBitSet.AbstractStrategy op)
      Scans over the bit set (and a second bit set if part of the operation) are all performed by this method.
      int size()
      Returns the number of bits of space nominally in use by this SparseBitSet to represent bit values.
      java.lang.String statistics()
      Convenience method for statistics if the individual results are not needed.
      java.lang.String statistics​(java.lang.String[] values)
      Determine, and create a String with the bit set statistics.
      protected void statisticsUpdate()
      The entirety of the bit set is examined, and the various statistics of the bit set (size, length, cardinality, hashCode, etc.) are computed.
      protected static void throwIndexOutOfBoundsException​(int i, int j)
      Throw the exception to indicate a range error.
      java.lang.String toString()
      Returns a string representation of this bit set.
      void toStringCompaction​(boolean change)
      If change is true, the current value of the toStringCompaction() value is made the default value for all SparseBitSets created from this point onward in this JVM.
      void toStringCompaction​(int count)
      Sequences of set bits longer than this value are shown by toString() as a "sub-sequence," in the form a..b.
      private void writeObject​(java.io.ObjectOutputStream s)
      Save the state of the SparseBitSet instance to a stream (i.e., serialize it).
      void xor​(int i, boolean value)
      Performs a logical XOR of the addressed target bit with the argument value.
      void xor​(int i, int j, SparseBitSet b)
      Performs a logical XOR of this bit set with the bit set argument within the given range.
      void xor​(SparseBitSet b)
      Performs a logical XOR of this bit set with the bit set argument.
      static SparseBitSet xor​(SparseBitSet a, SparseBitSet b)
      Performs a logical XOR of the two given SparseBitSets.

      • Methods inherited from class java.lang.Object

        finalize, getClass, notify, notifyAll, wait, wait, wait

    • Field Detail

      • compactionCount

        protected transient int compactionCount
        This value controls for format of the toString() output.
        See Also:
        toStringCompaction(int)

      • compactionCountDefault

        static int compactionCountDefault
        The compaction count default.

      • bits

        protected transient long[][][] bits
        The storage for this SparseBitSet. The ith bit is stored in a word represented by a long value, and is at bit position i % 64 within that word (where bit position 0 refers to the least significant bit and 63 refers to the most significant bit).

        The words are organized into blocks, and the blocks are accessed by two additional levels of array indexing.

      • bitsLength

        protected transient int bitsLength
        For the current size of the bits array, this is the maximum possible length of the bit set, i.e., the index of the last possible bit, plus one. Note: this not the value returned by length().
        See Also:
        resize(int), length()

      • LENGTH4

        protected static final int LENGTH4
        The number of bits in a long value.
        See Also:
        Constant Field Values

      • INDEX_SIZE

        protected static final int INDEX_SIZE
        The number of bits in a positive integer, and the size of permitted index of a bit in the bit set.
        See Also:
        Constant Field Values

      • LEVEL4

        protected static final int LEVEL4
        The label (index) of a bit in the bit set is essentially broken into 4 "levels". Respectively (from the least significant end), level4, the address within word, the address within a level3 block, the address within a level2 area, and the level1 address of that area within the set. LEVEL4 is the number of bits of the level4 address (number of bits need to address the bits in a long)
        See Also:
        Constant Field Values

      • LEVEL3

        protected static final int LEVEL3
        LEVEL3 is the number of bits of the level3 address.
        See Also:
        Constant Field Values

      • LEVEL2

        protected static final int LEVEL2
        LEVEL2 is the number of bits of the level2 address.
        See Also:
        Constant Field Values

      • LEVEL1

        protected static final int LEVEL1
        LEVEL1 is the number of bits of the level1 address.
        See Also:
        Constant Field Values

      • MAX_LENGTH1

        protected static final int MAX_LENGTH1
        MAX_LENGTH1 is the maximum number of entries in the level1 set array.
        See Also:
        Constant Field Values

      • LENGTH2

        protected static final int LENGTH2
        LENGTH2 is the number of entries in the any level2 area.
        See Also:
        Constant Field Values

      • LENGTH3

        protected static final int LENGTH3
        LENGTH3 is the number of entries in the any level3 block.
        See Also:
        Constant Field Values

      • SHIFT3

        protected static final int SHIFT3
        The shift to create the word index. (I.e., move it to the right end)
        See Also:
        Constant Field Values

      • MASK3

        protected static final int MASK3
        MASK3 is the mask to extract the LEVEL3 address from a word index (after shifting by SHIFT3).
        See Also:
        Constant Field Values

      • SHIFT2

        protected static final int SHIFT2
        SHIFT2 is the shift to bring the level2 address (from the word index) to the right end (i.e., after shifting by SHIFT3).
        See Also:
        Constant Field Values

      • UNIT

        protected static final int UNIT
        UNIT is the greatest number of bits that can be held in one level1 entry. That is, bits per word by words per level3 block by blocks per level2 area.
        See Also:
        Constant Field Values

      • MASK2

        protected static final int MASK2
        MASK2 is the mask to extract the LEVEL2 address from a word index (after shifting by SHIFT3 and SHIFT2).
        See Also:
        Constant Field Values

      • SHIFT1

        protected static final int SHIFT1
        SHIFT1 is the shift to bring the level1 address (from the word index) to the right end (i.e., after shifting by SHIFT3).
        See Also:
        Constant Field Values

      • LENGTH2_SIZE

        protected static final int LENGTH2_SIZE
        LENGTH2_SIZE is maximum index of a LEVEL2 page.
        See Also:
        Constant Field Values

      • LENGTH3_SIZE

        protected static final int LENGTH3_SIZE
        LENGTH3_SIZE is maximum index of a LEVEL3 page.
        See Also:
        Constant Field Values

      • LENGTH4_SIZE

        protected static final int LENGTH4_SIZE
        LENGTH4_SIZE is maximum index of a bit in a LEVEL4 word.
        See Also:
        Constant Field Values

      • spare

        protected transient long[] spare
        A spare level 3 block is kept for use when scanning. When a target block is needed, and there is not already one in the bit set, the spare is provided. If non-zero values are placed into this block, it is moved to the resulting set, and a new spare is acquired. Note: a new spare needs to be allocated when the set is cloned (so that the spare is not shared between two sets).

      • ZERO_BLOCK

        static final long[] ZERO_BLOCK
        An empty level 3 block is kept for use when scanning. When a source block is needed, and there is not already one in the corresponding bit set, the ZERO_BLOCK is used (as a read-only block). It is a source of zero values so that code does not have to test for a null level3 block. This is a static block shared everywhere.

      • serialVersionUID

        private static final long serialVersionUID
        serialVersionUID
        See Also:
        Constant Field Values

    • Constructor Detail

      • SparseBitSet

        protected SparseBitSet​(int capacity,
                       int compactionCount)
                throws java.lang.NegativeArraySizeException
        Constructor for a new (sparse) bit set. All bits initially are effectively false. This is a internal constructor that collects all the needed actions to initialise the bit set.

        The capacity is taken to be a suggestion for a size of the bit set, in bits. An appropiate table size (a power of two) is then determined and used. The size will be grown as needed to accomodate any bits addressed during the use of the bit set.

        Parameters:
        capacity - a size in terms of bits
        compactionCount - the compactionCount to be inherited (for internal generation)
        Throws:
        java.lang.NegativeArraySizeException - if the specified initial size is negative
        Since:
        1.6

      • SparseBitSet

        public SparseBitSet()
        Constructs an empty bit set with the default initial size. Initially all bits are effectively false.
        Since:
        1.6

      • SparseBitSet

        public SparseBitSet​(int nbits)
             throws java.lang.NegativeArraySizeException
        Creates a bit set whose initial size is large enough to efficiently represent bits with indices in the range 0 through at least nbits-1. Initially all bits are effectively false.

        No guarantees are given for how large or small the actual object will be. The setting of bits above the given range is permitted (and will perhaps eventually cause resizing).

        Parameters:
        nbits - the initial provisional length of the SparseBitSet
        Throws:
        java.lang.NegativeArraySizeException - if the specified initial length is negative
        Since:
        1.6
        See Also:
        SparseBitSet()

    • Method Detail

      • and

        public void and​(int i,
                boolean value)
         throws java.lang.IndexOutOfBoundsException
        Performs a logical AND of the addressed target bit with the argument value. This bit set is modified so that the addressed bit has the value true if and only if it both initially had the value true and the argument value is also true.
        Parameters:
        i - a bit index
        value - a boolean value to AND with that bit
        Throws:
        java.lang.IndexOutOfBoundsException - if the specified index is negative or equal to Integer.MAX_VALUE
        Since:
        1.6

      • and

        public void and​(int i,
                int j,
                SparseBitSet b)
         throws java.lang.IndexOutOfBoundsException
        Performs a logical AND of this target bit set with the argument bit set within the given range of bits. Within the range, this bit set is modified so that each bit in it has the value true if and only if it both initially had the value true and the corresponding bit in the bit set argument also had the value true. Outside the range, this set is not changed.
        Parameters:
        i - index of the first bit to be included in the operation
        j - index after the last bit to included in the operation
        b - a SparseBitSet
        Throws:
        java.lang.IndexOutOfBoundsException - if i is negative or equal to Integer.MAX_VALUE, or j is negative, or i is larger than j
        Since:
        1.6

      • and

        public void and​(SparseBitSet b)
        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 true if and only if it both initially had the value true and the corresponding bit in the bit set argument also had the value true.
        Parameters:
        b - a SparseBitSet
        Since:
        1.6

      • and

        public static SparseBitSet and​(SparseBitSet a,
                               SparseBitSet b)
        Performs a logical AND of the two given SparseBitSets. The returned SparseBitSet is created so that each bit in it has the value true if and only if both the given sets initially had the corresponding bits true, otherwise false.
        Parameters:
        a - a SparseBitSet
        b - another SparseBitSet
        Returns:
        a new SparseBitSet representing the AND of the two sets
        Since:
        1.6

      • andNot

        public void andNot​(int i,
                   boolean value)
        Performs a logical AndNOT of the addressed target bit with the argument value. This bit set is modified so that the addressed bit has the value true if and only if it both initially had the value true and the argument value is false.
        Parameters:
        i - a bit index
        value - a boolean value to AndNOT with that bit
        Throws:
        java.lang.IndexOutOfBoundsException - if the specified index is negative or equal to Integer.MAX_VALUE
        Since:
        1.6

      • andNot

        public void andNot​(int i,
                   int j,
                   SparseBitSet b)
            throws java.lang.IndexOutOfBoundsException
        Performs a logical AndNOT of this target bit set with the argument bit set within the given range of bits. Within the range, this bit set is modified so that each bit in it has the value true if and only if it both initially had the value true and the corresponding bit in the bit set argument has the value false. Outside the range, this set is not changed.
        Parameters:
        i - index of the first bit to be included in the operation
        j - index after the last bit to included in the operation
        b - the SparseBitSet with which to mask this SparseBitSet
        Throws:
        java.lang.IndexOutOfBoundsException - if i is negative or equal to Integer.MAX_VALUE, or j is negative, or i is larger than j
        Since:
        1.6

      • andNot

        public void andNot​(SparseBitSet b)
        Performs a logical AndNOT of this target bit set with the argument bit set. This bit set is modified so that each bit in it has the value true if and only if it both initially had the value true and the corresponding bit in the bit set argument has the value false.
        Parameters:
        b - the SparseBitSet with which to mask this SparseBitSet
        Since:
        1.6

      • andNot

        public static SparseBitSet andNot​(SparseBitSet a,
                                  SparseBitSet b)
        Creates a bit set from thie first SparseBitSet whose corresponding bits are cleared by the set bits of the second SparseBitSet. The resulting bit set is created so that a bit in it has the value true if and only if the corresponding bit in the SparseBitSet of the first is set, and that same corresponding bit is not set in the SparseBitSet of the second argument.
        Parameters:
        a - a SparseBitSet
        b - another SparseBitSet
        Returns:
        a new SparseBitSet representing the AndNOT of the two sets
        Since:
        1.6

      • cardinality

        public int cardinality()
        Returns the number of bits set to true in this SparseBitSet.
        Returns:
        the number of bits set to true in this SparseBitSet
        Since:
        1.6

      • clear

        public void clear​(int i)
        Sets the bit at the specified index to false.
        Parameters:
        i - a bit index.
        Throws:
        java.lang.IndexOutOfBoundsException - if the specified index is negative or equal to Integer.MAX_VALUE.
        Since:
        1.6

      • clear

        public void clear​(int i,
                  int j)
           throws java.lang.IndexOutOfBoundsException
        Sets the bits from the specified i (inclusive) to the specified j (exclusive) to false.
        Parameters:
        i - index of the first bit to be cleared
        j - index after the last bit to be cleared
        Throws:
        java.lang.IndexOutOfBoundsException - if i is negative or equal to Integer.MAX_VALUE, or j is negative, or i is larger than j
        Since:
        1.6

      • clear

        public void clear()
        Sets all of the bits in this SparseBitSet to false.
        Since:
        1.6

      • clone

        public SparseBitSet clone()
        Cloning this SparseBitSet produces a new SparseBitSet that is equal() to it. The clone of the bit set is another bit set that has exactly the same bits set to true as this bit set.

        Note: the actual space allocated to the clone tries to minimise the actual amount of storage allocated to hold the bits, while still trying to keep access to the bits being a rapid as possible. Since the space allocated to a SparseBitSet is not normally decreased, replacing a bit set by its clone may be a way of both managing memory consumption and improving the rapidity of access.

        Overrides:
        clone in class java.lang.Object
        Returns:
        a clone of this SparseBitSet
        Since:
        1.6

      • equals

        public boolean equals​(java.lang.Object obj)
        Compares this object against the specified object. The result is true if and only if the argument is not null and is a SparseBitSet object that has exactly the same bits set to true as this bit set. That is, for every nonnegative i indexing a bit in the set, 
        ((SparseBitSet)obj).get(i) == this.get(i)
        must be true.
        Overrides:
        equals in class java.lang.Object
        Parameters:
        obj - the Object with which to compare
        Returns:
        true if the objects are equivalent; false otherwise.
        Since:
        1.6

      • flip

        public void flip​(int i)
        Sets the bit at the specified index to the complement of its current value.
        Parameters:
        i - the index of the bit to flip
        Throws:
        java.lang.IndexOutOfBoundsException - if the specified index is negative or equal to Integer.MAX_VALUE
        Since:
        1.6

      • flip

        public void flip​(int i,
                 int j)
          throws java.lang.IndexOutOfBoundsException
        Sets each bit from the specified i (inclusive) to the specified j (exclusive) to the complement of its current value.
        Parameters:
        i - index of the first bit to flip
        j - index after the last bit to flip
        Throws:
        java.lang.IndexOutOfBoundsException - if i is negative or is equal to Integer.MAX_VALUE, or j is negative, or i is larger than j
        Since:
        1.6

      • get

        public boolean get​(int i)
        Returns the value of the bit with the specified index. The value is true if the bit with the index i is currently set in this SparseBitSet; otherwise, the result is false.
        Parameters:
        i - the bit index
        Returns:
        the boolean value of the bit with the specified index.
        Throws:
        java.lang.IndexOutOfBoundsException - if the specified index is negative or equal to Integer.MAX_VALUE
        Since:
        1.6

      • get

        public SparseBitSet get​(int i,
                        int j)
                 throws java.lang.IndexOutOfBoundsException
        Returns a new SparseBitSet composed of bits from this SparseBitSet from i (inclusive) to j (exclusive).
        Parameters:
        i - index of the first bit to include
        j - index after the last bit to include
        Returns:
        a new SparseBitSet from a range of this SparseBitSet
        Throws:
        java.lang.IndexOutOfBoundsException - if i is negative or is equal to Integer.MAX_VALUE, or j is negative, or i is larger than j
        Since:
        1.6

      • hashCode

        public int hashCode()
        Returns a hash code value for this bit set. The hash code depends only on which bits have been set within this SparseBitSet. The algorithm used to compute it may be described as follows.

        Suppose the bits in the SparseBitSet were to be stored in an array of long integers called, say, bits, in such a manner that bit i is set in the SparseBitSet (for nonnegative values of i) if and only if the expression 

          ((i>>6) < bits.length) && ((bits[i>>6] & (1L << (bit & 0x3F))) != 0)
        is true. Then the following definition of the hashCode method would be a correct implementation of the actual algorithm: 
          public int hashCode()
  {
      long hash = 1234L;
      for( int i = bits.length; --i >= 0; )
          hash ^= bits[i] * (i + 1);
      return (int)((h >> 32) ^ h);
  }
        Note that the hash code values change if the set of bits is altered.
        Overrides:
        hashCode in class java.lang.Object
        Returns:
        a hash code value for this bit set
        Since:
        1.6
        See Also:
        Object.equals(Object), Hashtable

      • intersects

        public boolean intersects​(int i,
                          int j,
                          SparseBitSet b)
                   throws java.lang.IndexOutOfBoundsException
        Returns true if the specified SparseBitSet has any bits within the given range i (inclusive) to j (exclusive) set to true that are also set to true in the same range of this SparseBitSet.
        Parameters:
        i - index of the first bit to include
        j - index after the last bit to include
        b - the SparseBitSet with which to intersect
        Returns:
        the boolean indicating whether this SparseBitSet intersects the specified SparseBitSet
        Throws:
        java.lang.IndexOutOfBoundsException - if i is negative or equal to Integer.MAX_VALUE, or j is negative, or i is larger than j
        Since:
        1.6

      • intersects

        public boolean intersects​(SparseBitSet b)
        Returns true if the specified SparseBitSet has any bits set to true that are also set to true in this SparseBitSet.
        Parameters:
        b - a SparseBitSet with which to intersect
        Returns:
        boolean indicating whether this SparseBitSet intersects the specified SparseBitSet
        Since:
        1.6

      • isEmpty

        public boolean isEmpty()
        Returns true if this SparseBitSet contains no bits that are set to true.
        Returns:
        the boolean indicating whether this SparseBitSet is empty
        Since:
        1.6

      • length

        public int length()
        Returns the "logical length" of this SparseBitSet: the index of the highest set bit in the SparseBitSet plus one. Returns zero if the SparseBitSet contains no set bits.
        Returns:
        the logical length of this SparseBitSet
        Since:
        1.6

      • nextClearBit

        public int nextClearBit​(int i)
        Returns the index of the first bit that is set to false that occurs on or after the specified starting index.
        Parameters:
        i - the index to start checking from (inclusive)
        Returns:
        the index of the next clear bit, or -1 if there is no such bit
        Throws:
        java.lang.IndexOutOfBoundsException - if the specified index is negative
        Since:
        1.6

      • nextSetBit

        public int nextSetBit​(int i)
        Returns the index of the first bit that is set to true that occurs on or after the specified starting index. If no such it exists then -1 is returned.

        To iterate over the true bits in a SparseBitSet sbs, use the following loop: 

          for( int i = sbbits.nextSetBit(0); i >= 0; i = sbbits.nextSetBit(i+1) )
  {
      // operate on index i here
  }
        Parameters:
        i - the index to start checking from (inclusive)
        Returns:
        the index of the next set bit
        Throws:
        java.lang.IndexOutOfBoundsException - if the specified index is negative
        Since:
        1.6

      • previousClearBit

        public int previousClearBit​(int i)
        Returns the index of the nearest bit that is set to false that occurs on or before the specified starting index. If no such bit exists, or if -1 is given as the starting index, then -1 is returned.
        Parameters:
        i - the index to start checking from (inclusive)
        Returns:
        the index of the previous clear bit, or -1 if there is no such bit
        Throws:
        java.lang.IndexOutOfBoundsException - if the specified index is less than -1
        Since:
        1.2
        See Also:
        BitSet.previousClearBit(int)

      • previousSetBit

        public int previousSetBit​(int i)
        Returns the index of the nearest bit that is set to true that occurs on or before the specified starting index. If no such bit exists, or if -1 is given as the starting index, then -1 is returned.
        Parameters:
        i - the index to start checking from (inclusive)
        Returns:
        the index of the previous set bit, or -1 if there is no such bit
        Throws:
        java.lang.IndexOutOfBoundsException - if the specified index is less than -1
        Since:
        1.2
        See Also:
        BitSet.previousSetBit(int)

      • or

        public void or​(int i,
               boolean value)
        Performs a logical OR of the addressed target bit with the argument value. This bit set is modified so that the addressed bit has the value true if and only if it both initially had the value true or the argument value is true.
        Parameters:
        i - a bit index
        value - a boolean value to OR with that bit
        Throws:
        java.lang.IndexOutOfBoundsException - if the specified index is negative or equal to Integer.MAX_VALUE
        Since:
        1.6

      • or

        public void or​(int i,
               int j,
               SparseBitSet b)
        throws java.lang.IndexOutOfBoundsException
        Performs a logical OR of the addressed target bit with the argument value within the given range. This bit set is modified so that within the range a bit in it has the value true if and only if it either already had the value true or the corresponding bit in the bit set argument has the value true. Outside the range this set is not changed.
        Parameters:
        i - index of the first bit to be included in the operation
        j - index after the last bit to included in the operation
        b - the SparseBitSet with which to perform the OR operation with this SparseBitSet
        Throws:
        java.lang.IndexOutOfBoundsException - if i is negative or equal to Integer.MAX_VALUE, or j is negative, or i is larger than j
        Since:
        1.6

      • or

        public void or​(SparseBitSet b)
        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 true if and only if it either already had the value true or the corresponding bit in the bit set argument has the value true.
        Parameters:
        b - the SparseBitSet with which to perform the OR operation with this SparseBitSet
        Since:
        1.6

      • or

        public static SparseBitSet or​(SparseBitSet a,
                              SparseBitSet b)
        Performs a logical OR of the two given SparseBitSets. The returned SparseBitSet is created so that a bit in it has the value true if and only if it either had the value true in the set given by the first arguemetn or had the value true in the second argument, otherwise false.
        Parameters:
        a - a SparseBitSet
        b - another SparseBitSet
        Returns:
        new SparseBitSet representing the OR of the two sets
        Since:
        1.6

      • set

        public void set​(int i)
        Sets the bit at the specified index.
        Parameters:
        i - a bit index
        Throws:
        java.lang.IndexOutOfBoundsException - if the specified index is negative or equal to Integer.MAX_VALUE
        Since:
        1.6

      • set

        public void set​(int i,
                boolean value)
        Sets the bit at the specified index to the specified value.
        Parameters:
        i - a bit index
        value - a boolean value to set
        Throws:
        java.lang.IndexOutOfBoundsException - if the specified index is negative or equal to Integer.MAX_VALUE
        Since:
        1.6

      • set

        public void set​(int i,
                int j)
         throws java.lang.IndexOutOfBoundsException
        Sets the bits from the specified i (inclusive) to the specified j (exclusive) to true.
        Parameters:
        i - index of the first bit to be set
        j - index after the last bit to be se
        Throws:
        java.lang.IndexOutOfBoundsException - if i is negative or is equal to Integer.MAX_INT, or j is negative, or i is larger than j.
        Since:
        1.6

      • set

        public void set​(int i,
                int j,
                boolean value)
        Sets the bits from the specified i (inclusive) to the specified j (exclusive) to the specified value.
        Parameters:
        i - index of the first bit to be set
        j - index after the last bit to be set
        value - to which to set the selected bits
        Throws:
        java.lang.IndexOutOfBoundsException - if i is negative or is equal to Integer.MAX_VALUE, or j is negative, or i is larger than j
        Since:
        1.6

      • size

        public int size()
        Returns the number of bits of space nominally in use by this SparseBitSet to represent bit values. The count of bits in the set is the (label of the last set bit) + 1 - (the label of the first set bit).
        Returns:
        the number of bits (true and false) nominally in this bit set at this moment
        Since:
        1.6

      • statistics

        public java.lang.String statistics()
        Convenience method for statistics if the individual results are not needed.
        Returns:
        a String detailing the statistics of the bit set
        Since:
        1.6
        See Also:
        statistics(String[])

      • statistics

        public java.lang.String statistics​(java.lang.String[] values)
        Determine, and create a String with the bit set statistics. The statistics include: Size, Length, Cardinality, Total words (i.e., the total number of 64-bit "words"), Set array length (i.e., the number of references that can be held by the top level array, Level2 areas in use, Level3 blocks in use,, Level2 pool size, Level3 pool size, and the Compaction count.

        This method is intended for diagnostic use (as it is relatively expensive in time), but can be useful in understanding an application's use of a SparseBitSet.

        Parameters:
        values - an array for the individual results (if not null)
        Returns:
        a String detailing the statistics of the bit set
        Since:
        1.6

      • toString

        public java.lang.String toString()
        Returns a string representation of this bit set. For every index for which this SparseBitSet contains a bit in the set state, the decimal representation of that index is included in the result. Such indices are listed in order from lowest to highest. If there is a subsequence of set bits longer than the value given by toStringCompaction, the subsequence is represented by the value for the first and the last values, with ".." between them. The individual bits, or the representation of sub-sequences are separated by ", " (a comma and a space) and surrounded by braces, resulting in a compact string showing (a variant of) the usual mathematical notation for a set of integers.
        Example (with the default value of 2 for subsequences): 
              SparseBitSet drPepper = new SparseBitSet();
        Now drPepper.toString() returns "{}". 
              drPepper.set(2);
        Now drPepper.toString() returns "{2}". 
              drPepper.set(3, 4);
      drPepper.set(10);
        Now drPepper.toString() returns "{2..4, 10}".
        This method is intended for diagnostic use (as it is relatively expensive in time), but can be useful in interpreting problems in an application's use of a SparseBitSet.
        Overrides:
        toString in class java.lang.Object
        Returns:
        a String representation of this SparseBitSet
        Since:
        1.6
        See Also:
        toStringCompaction(int length)

      • toStringCompaction

        public void toStringCompaction​(int count)
        Sequences of set bits longer than this value are shown by toString() as a "sub-sequence," in the form a..b. Setting this value to zero causes each set bit to be listed individually. The default default value is 2 (which means sequences of three or more bits set are shown as a subsequence, and all other set bits are listed individually).

        Note: this value will be passed to SparseBitSets that may be created within or as a result of the operations on this bit set, or, for static methods, from the value belonging to the first parameter.

        Parameters:
        count - the maximum count of a run of bits that are shown as individual entries in a toString() conversion. If 0, all bits are shown individually.
        Since:
        1.6
        See Also:
        toString()

      • toStringCompaction

        public void toStringCompaction​(boolean change)
        If change is true, the current value of the toStringCompaction() value is made the default value for all SparseBitSets created from this point onward in this JVM.
        Parameters:
        change - if true, change the default value
        Since:
        1.6

      • xor

        public void xor​(int i,
                boolean value)
        Performs a logical XOR of the addressed target bit with the argument value. This bit set is modified so that the addressed bit has the value true if and only one of the following statements holds:
        • The addressed bit initially had the value true, and the value of the argument is false.
        • The bit initially had the value false, and the value of the argument is true.
        Parameters:
        i - a bit index
        value - a boolean value to XOR with that bit
        Throws:
        java.lang.IndexOutOfBoundsException - if the specified index is negative or equal to Integer.MAX_VALUE
        Since:
        1.6

      • xor

        public void xor​(int i,
                int j,
                SparseBitSet b)
         throws java.lang.IndexOutOfBoundsException
        Performs a logical XOR of this bit set with the bit set argument within the given range. This resulting bit set is computed so that a bit within the range in it has the value true if and only if one of the following statements holds:
        • The bit initially had the value true, and the corresponding bit in the argument set has the value false.
        • The bit initially had the value false, and the corresponding bit in the argument set has the value true.
        Outside the range this set is not changed.
        Parameters:
        i - index of the first bit to be included in the operation
        j - index after the last bit to included in the operation
        b - the SparseBitSet with which to perform the XOR operation with this SparseBitSet
        Throws:
        java.lang.IndexOutOfBoundsException - if i is negative or equal to Integer.MAX_VALUE, or j is negative, or i is larger than j
        Since:
        1.6

      • xor

        public void xor​(SparseBitSet b)
        Performs a logical XOR of this bit set with the bit set argument. This resulting bit set is computed so that a bit in it has the value true if and only if one of the following statements holds:
        • The bit initially had the value true, and the corresponding bit in the argument set has the value false.
        • The bit initially had the value false, and the corresponding bit in the argument set has the value true.
        Parameters:
        b - the SparseBitSet with which to perform the XOR operation with thisSparseBitSet
        Since:
        1.6

      • xor

        public static SparseBitSet xor​(SparseBitSet a,
                               SparseBitSet b)
        Performs a logical XOR of the two given SparseBitSets. The resulting bit set is created so that a bit in it has the value true if and only if one of the following statements holds:
        • A bit in the first argument has the value true, and the corresponding bit in the second argument has the value false.
        • A bit in the first argument has the value false, and the corresponding bit in the second argument has the value true.
        Parameters:
        a - a SparseBitSet
        b - another SparseBitSet
        Returns:
        a new SparseBitSet representing the XOR of the two sets
        Since:
        1.6

      • throwIndexOutOfBoundsException

        protected static void throwIndexOutOfBoundsException​(int i,
                                                     int j)
                                              throws java.lang.IndexOutOfBoundsException
        Throw the exception to indicate a range error. The String constructed reports all the possible errors in one message.
        Parameters:
        i - lower bound for a operation
        j - upper bound for a operation
        Throws:
        java.lang.IndexOutOfBoundsException - indicating the range is not valid
        Since:
        1.6

      • constructorHelper

        protected final void constructorHelper()
        Intializes all the additional objects required for correct operation.
        Since:
        1.6

      • nullify

        protected final void nullify​(int start)
        Clear out a part of the set array with nulls, from the given start to the end of the array. If the given parameter is beyond the end of the bits array, nothing is changed.
        Parameters:
        start - word index at which to start (inclusive)
        Since:
        1.6

      • resize

        protected final void resize​(int index)
        Resize the bit array. Moves the entries in the the bits array of this SparseBitSet into an array whose size (which may be larger or smaller) is the given bit size (i.e., includes the bit whose index is one less that the given value). If the new array is smaller, the excess entries in the set array are discarded. If the new array is bigger, it is filled with nulls.
        Parameters:
        index - the desired address to be included in the set
        Since:
        1.6

      • setScanner

        protected final void setScanner​(int i,
                                int j,
                                SparseBitSet b,
                                SparseBitSet.AbstractStrategy op)
                         throws java.lang.IndexOutOfBoundsException
        Scans over the bit set (and a second bit set if part of the operation) are all performed by this method. The properties and the operation executed are defined by a given strategy, which must be derived from the AbstractStrategy. The strategy defines how to operate on a single word, and on whole words that may or may not constitute a full block of words.
        Parameters:
        i - the bit (inclusive) at which to start the scan
        j - the bit (exclusive) at which to stop the scan
        b - a SparseBitSet, if needed, the second SparseBitSet in the operation
        op - the AbstractStrategy class defining the operation to be executed
        Throws:
        java.lang.IndexOutOfBoundsException
        Since:
        1.6
        See Also:
        SparseBitSet.AbstractStrategy

      • statisticsUpdate

        protected final void statisticsUpdate()
        The entirety of the bit set is examined, and the various statistics of the bit set (size, length, cardinality, hashCode, etc.) are computed. Level arrays that are empty (i.e., all zero at level 3, all null at level 2) are replaced by null references, ensuring a normalized representation.
        Since:
        1.6

      • writeObject

        private void writeObject​(java.io.ObjectOutputStream s)
                  throws java.io.IOException,
                         java.lang.InternalError
        Save the state of the SparseBitSet instance to a stream (i.e., serialize it).
        Parameters:
        s - the ObjectOutputStream to which to write the serialized object
        Throws:
        java.io.IOException - if an io error occurs
        java.lang.InternalError - if the SparseBitSet representation is inconsistent
        Since:
        1.6

      • readObject

        private void readObject​(java.io.ObjectInputStream s)
                 throws java.io.IOException,
                        java.lang.ClassNotFoundException
        Reconstitute the SparseBitSet instance from a stream (i.e., deserialize it).
        Parameters:
        s - the ObjectInputStream to use
        Throws:
        java.io.IOException - if there is an io error
        java.lang.ClassNotFoundException - if the stream contains an unidentified class
        Since:
        1.6