55

I have some library of classes, working with my data, which is being read into buffer. Is it possible somehow to avoid copying arrays again and again, passing parts of data deeper and deeper into processing methods? Well, it sounds strange, but in my particular case, there's a special writer, which divides data into blocks and writes them individually into different locations, so it just performs System.arraycopy, gets what it needs and calls underlying writer, with that new sub array. And this happens many times. What is the best approach to refactor such code?

2

9 Answers 9

69
Arrays.asList(array).subList(x, y).

This method doesn't give you an array, but a List, which is far more flexible.

5
  • 2
    The whole point of the question is to avoid copying. What do you think the above does?
    – Theo
    May 10, 2012 at 13:39
  • 81
    Returns a fixed-size list backed by the specified array. I accept your apology. May 10, 2012 at 21:57
  • And Arrays.asList(new int[5000]) doesn't copy?
    – dhardy
    Jun 14, 2013 at 11:40
  • 3
    To correct myself, it doesn't work with primitive types: Arrays.asList(new int[]{...}) has type List<int[]> (so not what I wanted).
    – dhardy
    Jun 14, 2013 at 11:46
  • 6
    This answer talks about a sub-list but the question was about a sub-array. Two different things. Jan 8, 2015 at 6:47
24

Many classes in Java accept a subset of an arrays as parameter. E.g. Writer.write(char cbuf[], int off, int len). Maybe this already suffices for your usecase.

1
  • This is the simplest approach, so I will try it. Aug 5, 2010 at 7:46
16

There is no real way to wrap any data without copying and receive real array in Java. You just cannot create new array over existing memory. You have basically 2 options:

  • Use methods that can accept range of array. This was already recommended.
  • Use wrapper that gives some kind of abstraction that is close to array and is suitable for many applications. Will be described below.

You may use java.nio.Buffer classes hierarchy, especially java.nio.ByteBuffer which offers buffer abstraction on whole array or sub-ranges. Often it is what people need. This also offers many interesting abilities like 'zero copy' flip and flexible byte area representation.

Here is example of wrapping using java.nio.ByteBuffer. This should be very close to what you need. At least for some operations.

byte [] a1 = {0, 0, 1, 0};
ByteBuffer buf = ByteBuffer.wrap(a1,1,2);

Then you can do on buf any ByteBuffer operation.

Just a warning, buf.array() returns original a1 array (backend) with all elements.

3
  • 1
    Ah so even if I do buf = ByteBuffer.wrap(a1, 1, 2)... buf.array() will still return {0, 0, 1, 0}. So this idea can't really be used to get a subarray?
    – Burrito
    Dec 23, 2017 at 21:56
  • You just cannot get real sub-array without copying in Java. So wrappers are used. List one was illustrated before and Buffer abstraction is another one. I would say it is far more useful over byte range of memory but for complex object arrays List is more common. Dec 25, 2017 at 12:47
  • 2
    This is a knowledgable/in depth answer Apr 27, 2018 at 4:19
4

There is no way to declare a subarray in Java if you use built in arrays like byte[]. The reason is: The length of the array is stored with the data, not with the declaration of the reference to it. Hence a subarray which does not copy the data has no place where it can store the length! So for basic types you can use the mentioned efficient byte array copies and for higher types (List) there are methods available.

0
2

You could take the same approach as the String class takes; create a class for immutable objects which are constructed from an array, a start offset and an end offset which offers access to the sub-array. The user of such an object does not have to know the distinction between the whole array or a sub-array. The constructor does not have to copy the array, just store the array reference and its boundaries.

1

You could use (ArrayList).subList(value1, value2) i belive, perhaps that could help in your case? That is ofcourse if you want to use an ArrayList.

1
  • Answer given same day! (oh ..but two years later..) Apr 27, 2018 at 4:18
1

Perhaps instead of working with arrays you should work with a different type that maintains a reference to a slice of the original array, instead of copying the data over, similar to ArraySegment in C#. An additional benefit to this is that you can also shift the slice over the original array on-demand, without creating new instances. Pseudo code:

public class ArraySegment<T> implements Iterable<T> 
{
      private int from, to;
      private T[] original;
      
      public ArraySegment<T>(T[] original, int from, int to)
      {
          //constructor stuff
      }

      public T get(int index)
      {
           return original[index + from];
      }

      public int size()
      {
          return to - from + 1;
      }
      
      @Override
      public Iterator<T> iterator()
      {
          //Iterator that iterates over the slice
      }

      //Can support setters on from/to variables
}
0

Google's Guava libraries support the slice concept in the form of a ByteSource.

Google Guava is a readily available open-source package of functionality, written from the ground up to follow Google best practices, which depend on significant array slicing capabilities.

-3

Have a look on Arrays.copyOfRange(***) methods.

1
  • 15
    From javadoc: "Copies the specified range of the specified array into a new array", which is not what the OP wants.
    – f1sh
    Aug 3, 2010 at 11:28

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