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I got a map containing n parts of a message as a byte array. After the last piece has found his way into the map, the message has to be concatenated. I found two solutions which should meet the requirements. First one is using System.arraycopy:

public byte[] getMessageBytes() throws IOException {
    byte[] bytes = new byte[0];
    for (final Map.Entry<Short,byte[]> entry : myMap.entrySet()) {
        byte[] entryBytes = entry.getValue();
        byte[] temp = new byte[bytes.length + entryBytes.length];
        System.arraycopy(bytes, 0, temp, 0, bytes.length);
        System.arraycopy(entryBytes, 0, temp, bytes.length, entryBytes.length);
        bytes = temp;
    return bytes;

And second one is using ByteArrayOutputStream:

public byte[] getMessageBytes() throws IOException {
    final ByteArrayOutputStream baos = new ByteArrayOutputStream();
    for (final Map.Entry<Short,byte[]> entry : myMap.entrySet()) {
    return baos.toByteArray();

What is the better method seen from the angle of performance and memory usage? Is there an alternative way of doing the concatenation which is even better?

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Have you benchmarked these and found them not fast enough? –  Poindexter May 2 '12 at 14:54
is this really your bottleneck? –  ControlAltDel May 2 '12 at 14:55
@Poindexter I found this takes some time within the hole process if the map has lots of entries. So I looked for an improvement. –  sebastian May 2 '12 at 15:06
Can you just remove the use of the map and concatenate from the start? –  Aidos May 2 '12 at 15:07
Often its better to do these things as you go. Can you create a ByteArrayOutputStream instead of a Map from the start. BTW a Short and an Integer uses the same amount of memory. –  Peter Lawrey May 2 '12 at 15:09

5 Answers 5

up vote 6 down vote accepted

Since you can find out the size of the message by adding up the lengths of the pieces, I would:

  1. add up the lengths of the pieces, and allocate the output array;
  2. use a loop to arraycopy() each piece into the correct position in the output array.

This is likely to be memory-efficient and fast. However, only profiling can tell the full story.

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This should perform even better than your first version (not tested)

public byte[] getMessageBytes() throws IOException {
    long amount = 0L;
    long offset = 0L;
    // no reason to use entrySet() if you just use the values
    for (byte[] arr : myMap.values()) {
        amount += arr.length;
    byte[] dest = new byte[amount];
    for (byte[] arr : myMap.values()) {
        System.arraycopy(arr, 0, dest, offset, arr.length);
        offset += arr.length;
    return dest;

(This answer is roughly equivalent to aix's)

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Does this assume that the order you wish to concatenate the arrays is the order of the values set? It's been a while since I've written java, but I don't think there is an order gaurantee for the values() Set is there? –  Aidos May 2 '12 at 15:06
@Aidos true, but since the OP used that, so did I. and while the order is not guaranteed (unless it's a SortedMap), all map implementations I know of will iterate in the same order when called multiple times unless the map has changed –  Sean Patrick Floyd May 2 '12 at 15:26

The correct answer is to test and compare for your particular situation.

Is that a SortedMap, like a TreeMap or are you actually merging the bytes randomly?

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It is a TreeMap. –  sebastian May 2 '12 at 15:21

Your first solution that creates a new array for each iteration is O(n^2), which is a problem if you have many entries. Plus it is fairly complex.

Using ByteArrayOutputStream is better for two reasons: it runs in O(n), and it is very simple.

Most likely a little bit faster is: if you first calculate the total size, and then use System.arraycopy. But I would only do that if the ByteArrayOutputStream is really too slow.

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Calculating the size first and allocating the result once should be the fastest solution to return a byte array.

If you use the resulting byte array as an InputStream later on, and depending on the combined size of the arrays, the fastest way might be to not concatenate at all. In that case you could create a SequenceInputStream wrapping several ByteArrayInputStreams. Untested sample code:

Collection<byte[]> values = map.values();
List<ByteArrayInputStream> streams = new ArrayList<ByteArrayInputStream>(values.size());
for (byte[] bytes : values) {
    streams.add(new ByteArrayInputStream(bytes));
return new SequenceInputStream(Collections.enumeration(streams));
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