Package org.apache.lucene.util

Class ArrayUtil

java.lang.Object
org.apache.lucene.util.ArrayUtil
public final class ArrayUtil extends Object
Methods for manipulating arrays.

  • Field Summary

    Fields
    Modifier and Type
    Field
    Description
    static final int
    MAX_ARRAY_LENGTH
    Maximum length for an array; we set this to "a bit" below Integer.MAX_VALUE because the exact max allowed byte[] is JVM dependent, so we want to avoid a case where a large value worked during indexing on one JVM but failed later at search time with a different JVM.

  • Method Summary

    Modifier and Type
    Method
    Description
    static boolean
    equals(byte[] left, int offsetLeft, byte[] right, int offsetRight, int length)
    See if two array slices are the same.
    static boolean
    equals(char[] left, int offsetLeft, char[] right, int offsetRight, int length)
    See if two array slices are the same.
    static boolean
    equals(int[] left, int offsetLeft, int[] right, int offsetRight, int length)
    See if two array slices are the same.
    static int
    getShrinkSize(int currentSize, int targetSize, int bytesPerElement)
     
    static boolean[]
    grow(boolean[] array)
     
    static boolean[]
    grow(boolean[] array, int minSize)
     
    static byte[]
    grow(byte[] array)
     
    static byte[]
    grow(byte[] array, int minSize)
     
    static char[]
    grow(char[] array)
     
    static char[]
    grow(char[] array, int minSize)
     
    static double[]
    grow(double[] array)
     
    static double[]
    grow(double[] array, int minSize)
     
    static float[]
    grow(float[] array)
     
    static float[][]
    grow(float[][] array)
     
    static float[][]
    grow(float[][] array, int minSize)
     
    static float[]
    grow(float[] array, int minSize)
     
    static int[]
    grow(int[] array)
     
    static int[][]
    grow(int[][] array)
     
    static int[][]
    grow(int[][] array, int minSize)
     
    static int[]
    grow(int[] array, int minSize)
     
    static long[]
    grow(long[] array)
     
    static long[]
    grow(long[] array, int minSize)
     
    static short[]
    grow(short[] array)
     
    static short[]
    grow(short[] array, int minSize)
     
    static int
    hashCode(byte[] array, int start, int end)
    Returns hash of bytes in range start (inclusive) to end (inclusive)
    static int
    hashCode(char[] array, int start, int end)
    Returns hash of chars in range start (inclusive) to end (inclusive)
    static <T extends Comparable<? super T>>
    void
    introSort(T[] a)
    Sorts the given array in natural order.
    static <T extends Comparable<? super T>>
    void
    introSort(T[] a, int fromIndex, int toIndex)
    Sorts the given array slice in natural order.
    static <T> void
    introSort(T[] a, int fromIndex, int toIndex, Comparator<? super T> comp)
    Sorts the given array slice using the Comparator.
    static <T> void
    introSort(T[] a, Comparator<? super T> comp)
    Sorts the given array using the Comparator.
    static <T extends Comparable<? super T>>
    Comparator<T>
    naturalComparator()
    Get the natural Comparator for the provided object class.
    static int
    oversize(int minTargetSize, int bytesPerElement)
    Returns an array size >= minTargetSize, generally over-allocating exponentially to achieve amortized linear-time cost as the array grows.
    static int
    parseInt(char[] chars)
    Parses the string argument as if it was an int value and returns the result.
    static int
    parseInt(char[] chars, int offset, int len)
    Parses a char array into an int.
    static int
    parseInt(char[] chars, int offset, int len, int radix)
    Parses the string argument as if it was an int value and returns the result.
    static boolean[]
    shrink(boolean[] array, int targetSize)
     
    static byte[]
    shrink(byte[] array, int targetSize)
     
    static char[]
    shrink(char[] array, int targetSize)
     
    static float[][]
    shrink(float[][] array, int targetSize)
     
    static int[][]
    shrink(int[][] array, int targetSize)
     
    static int[]
    shrink(int[] array, int targetSize)
     
    static long[]
    shrink(long[] array, int targetSize)
     
    static short[]
    shrink(short[] array, int targetSize)
     
    static <T> void
    swap(T[] arr, int i, int j)
    Swap values stored in slots i and j
    static <T extends Comparable<? super T>>
    void
    timSort(T[] a)
    Sorts the given array in natural order.
    static <T extends Comparable<? super T>>
    void
    timSort(T[] a, int fromIndex, int toIndex)
    Sorts the given array slice in natural order.
    static <T> void
    timSort(T[] a, int fromIndex, int toIndex, Comparator<? super T> comp)
    Sorts the given array slice using the Comparator.
    static <T> void
    timSort(T[] a, Comparator<? super T> comp)
    Sorts the given array using the Comparator.
    static int[]
    toIntArray(Collection<Integer> ints)
     

    Methods inherited from class java.lang.Object

    equals, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait

  • Field Details

    • MAX_ARRAY_LENGTH

      public static final int MAX_ARRAY_LENGTH
      Maximum length for an array; we set this to "a bit" below Integer.MAX_VALUE because the exact max allowed byte[] is JVM dependent, so we want to avoid a case where a large value worked during indexing on one JVM but failed later at search time with a different JVM.
      See Also:

  • Method Details

    • parseInt

      public static int parseInt(char[] chars) throws NumberFormatException
      Parses the string argument as if it was an int value and returns the result. Throws NumberFormatException if the string does not represent an int quantity.
      Parameters:
      chars - a string representation of an int quantity.
      Returns:
      int the value represented by the argument
      Throws:
      NumberFormatException - if the argument could not be parsed as an int quantity.

    • parseInt

      public static int parseInt(char[] chars, int offset, int len) throws NumberFormatException
      Parses a char array into an int.
      Parameters:
      chars - the character array
      offset - The offset into the array
      len - The length
      Returns:
      the int
      Throws:
      NumberFormatException - if it can't parse

    • parseInt

      public static int parseInt(char[] chars, int offset, int len, int radix) throws NumberFormatException
      Parses the string argument as if it was an int value and returns the result. Throws NumberFormatException if the string does not represent an int quantity. The second argument specifies the radix to use when parsing the value.
      Parameters:
      chars - a string representation of an int quantity.
      radix - the base to use for conversion.
      Returns:
      int the value represented by the argument
      Throws:
      NumberFormatException - if the argument could not be parsed as an int quantity.

    • oversize

      public static int oversize(int minTargetSize, int bytesPerElement)
      Returns an array size >= minTargetSize, generally over-allocating exponentially to achieve amortized linear-time cost as the array grows. NOTE: this was originally borrowed from Python 2.4.2 listobject.c sources (attribution in LICENSE.txt), but has now been substantially changed based on discussions from java-dev thread with subject "Dynamic array reallocation algorithms", started on Jan 12 2010.
      Parameters:
      minTargetSize - Minimum required value to be returned.
      bytesPerElement - Bytes used by each element of the array. See constants in RamUsageEstimator.

    • getShrinkSize

      public static int getShrinkSize(int currentSize, int targetSize, int bytesPerElement)

    • grow

      public static short[] grow(short[] array, int minSize)

    • grow

      public static short[] grow(short[] array)

    • grow

      public static float[] grow(float[] array, int minSize)

    • grow

      public static float[] grow(float[] array)

    • grow

      public static double[] grow(double[] array, int minSize)

    • grow

      public static double[] grow(double[] array)

    • shrink

      public static short[] shrink(short[] array, int targetSize)

    • grow

      public static int[] grow(int[] array, int minSize)

    • grow

      public static int[] grow(int[] array)

    • shrink

      public static int[] shrink(int[] array, int targetSize)

    • grow

      public static long[] grow(long[] array, int minSize)

    • grow

      public static long[] grow(long[] array)

    • shrink

      public static long[] shrink(long[] array, int targetSize)

    • grow

      public static byte[] grow(byte[] array, int minSize)

    • grow

      public static byte[] grow(byte[] array)

    • shrink

      public static byte[] shrink(byte[] array, int targetSize)

    • grow

      public static boolean[] grow(boolean[] array, int minSize)

    • grow

      public static boolean[] grow(boolean[] array)

    • shrink

      public static boolean[] shrink(boolean[] array, int targetSize)

    • grow

      public static char[] grow(char[] array, int minSize)

    • grow

      public static char[] grow(char[] array)

    • shrink

      public static char[] shrink(char[] array, int targetSize)

    • grow

      public static int[][] grow(int[][] array, int minSize)

    • grow

      public static int[][] grow(int[][] array)

    • shrink

      public static int[][] shrink(int[][] array, int targetSize)

    • grow

      public static float[][] grow(float[][] array, int minSize)

    • grow

      public static float[][] grow(float[][] array)

    • shrink

      public static float[][] shrink(float[][] array, int targetSize)

    • hashCode

      public static int hashCode(char[] array, int start, int end)
      Returns hash of chars in range start (inclusive) to end (inclusive)

    • hashCode

      public static int hashCode(byte[] array, int start, int end)
      Returns hash of bytes in range start (inclusive) to end (inclusive)

    • equals

      public static boolean equals(char[] left, int offsetLeft, char[] right, int offsetRight, int length)
      See if two array slices are the same.
      Parameters:
      left - The left array to compare
      offsetLeft - The offset into the array. Must be positive
      right - The right array to compare
      offsetRight - the offset into the right array. Must be positive
      length - The length of the section of the array to compare
      Returns:
      true if the two arrays, starting at their respective offsets, are equal
      See Also:

    • equals

      public static boolean equals(byte[] left, int offsetLeft, byte[] right, int offsetRight, int length)
      See if two array slices are the same.
      Parameters:
      left - The left array to compare
      offsetLeft - The offset into the array. Must be positive
      right - The right array to compare
      offsetRight - the offset into the right array. Must be positive
      length - The length of the section of the array to compare
      Returns:
      true if the two arrays, starting at their respective offsets, are equal
      See Also:

    • equals

      public static boolean equals(int[] left, int offsetLeft, int[] right, int offsetRight, int length)
      See if two array slices are the same.
      Parameters:
      left - The left array to compare
      offsetLeft - The offset into the array. Must be positive
      right - The right array to compare
      offsetRight - the offset into the right array. Must be positive
      length - The length of the section of the array to compare
      Returns:
      true if the two arrays, starting at their respective offsets, are equal
      See Also:

    • toIntArray

      public static int[] toIntArray(Collection<Integer> ints)

    • naturalComparator

      public static <T extends Comparable<? super T>> Comparator<T> naturalComparator()
      Get the natural Comparator for the provided object class.

    • swap

      public static <T> void swap(T[] arr, int i, int j)
      Swap values stored in slots i and j

    • introSort

      public static <T> void introSort(T[] a, int fromIndex, int toIndex, Comparator<? super T> comp)
      Sorts the given array slice using the Comparator. This method uses the intro sort algorithm, but falls back to insertion sort for small arrays.
      Parameters:
      fromIndex - start index (inclusive)
      toIndex - end index (exclusive)

    • introSort

      public static <T> void introSort(T[] a, Comparator<? super T> comp)
      Sorts the given array using the Comparator. This method uses the intro sort algorithm, but falls back to insertion sort for small arrays.

    • introSort

      public static <T extends Comparable<? super T>> void introSort(T[] a, int fromIndex, int toIndex)
      Sorts the given array slice in natural order. This method uses the intro sort algorithm, but falls back to insertion sort for small arrays.
      Parameters:
      fromIndex - start index (inclusive)
      toIndex - end index (exclusive)

    • introSort

      public static <T extends Comparable<? super T>> void introSort(T[] a)
      Sorts the given array in natural order. This method uses the intro sort algorithm, but falls back to insertion sort for small arrays.

    • timSort

      public static <T> void timSort(T[] a, int fromIndex, int toIndex, Comparator<? super T> comp)
      Sorts the given array slice using the Comparator. This method uses the Tim sort algorithm, but falls back to binary sort for small arrays.
      Parameters:
      fromIndex - start index (inclusive)
      toIndex - end index (exclusive)

    • timSort

      public static <T> void timSort(T[] a, Comparator<? super T> comp)
      Sorts the given array using the Comparator. This method uses the Tim sort algorithm, but falls back to binary sort for small arrays.

    • timSort

      public static <T extends Comparable<? super T>> void timSort(T[] a, int fromIndex, int toIndex)
      Sorts the given array slice in natural order. This method uses the Tim sort algorithm, but falls back to binary sort for small arrays.
      Parameters:
      fromIndex - start index (inclusive)
      toIndex - end index (exclusive)

    • timSort

      public static <T extends Comparable<? super T>> void timSort(T[] a)
      Sorts the given array in natural order. This method uses the Tim sort algorithm, but falls back to binary sort for small arrays.