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I know there were several similar threads here and on the net but I seem to be doing something wrong, I guess. My task is easy - write (and later read) a big array of integers (int [] or ArrayList or what you think is best) to a file. The faster the better. My concrete array has about 4.5M integers in it and currently the times are for example (in ms):

  • Generating trie: 14851.13071
  • Generating array: 2237.4661619999997
  • Saving array: 89250.167617
  • Loading array: 114908.08185799999

This is unacceptable and I guess the times should be much lower. What am I doing wrong? I don't need the fastest method on earth but getting these times to about 5 - 15 seconds (less is welcome but not mandatory) is my goal.

My current code:

long start = System.nanoTime();

Node trie = dawg.generateTrie("dict.txt");
long afterGeneratingTrie = System.nanoTime();
ArrayList<Integer> array = dawg.generateArray(trie);
long afterGeneratingArray = System.nanoTime();

try
{
    new ObjectOutputStream(new FileOutputStream("test.txt")).writeObject(array);
}
catch (Exception e)
{
    Logger.getLogger(DawgTester.class.getName()).log(Level.SEVERE, null, e);
}
long afterSavingArray = System.nanoTime();

ArrayList<Integer> read = new ArrayList<Integer>();
try
{
    read = (ArrayList)new ObjectInputStream(new FileInputStream("test.txt")).readObject();
}
catch (Exception e)
{
    Logger.getLogger(DawgTester.class.getName()).log(Level.SEVERE, null, e);
}
long afterLoadingArray = System.nanoTime();

System.out.println("Generating trie: " + 0.000001 * (afterGeneratingTrie - start));
System.out.println("Generating array: " + 0.000001 * (afterGeneratingArray - afterGeneratingTrie));
System.out.println("Saving array: " + 0.000001 * (afterSavingArray - afterGeneratingArray));
System.out.println("Loading array: " + 0.000001 * (afterLoadingArray - afterSavingArray));
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ArrayList is not an array. –  oldrinb Sep 11 '12 at 18:45
    
I know but I don't know whether I should array or ArrayList. –  NPS Sep 11 '12 at 18:46
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2 Answers 2

up vote 3 down vote accepted

Don't use java Serialization. it is very powerful and robust, but not particularly speedy (or compact). use a simple DataOutputStream and call writeInt(). (make sure you use a BufferedOutputStream between DataOutputStream and FileOutputStream).

if you want to pre-size your array on read, write your first int as the array length.

share|improve this answer
1  
1. Should I use int [] or ArrayList<Integer>? Or it doesn't matter? --- 2. Could you provide some code samples? I'm afraid that I might mix something up and end up with slow/broken code anyway. –  NPS Sep 11 '12 at 18:44
1  
@NPS - if you need to store the data in some sort of list structure, an int[] would be the fastest/most memory efficient. however, if you are ultimately using another data structure, it would probably be faster to just use that directly. –  jtahlborn Sep 11 '12 at 18:47
    
1. I need anything that works like an array, i.e. takes one (possibley small) block of memory and has index-access. --- 2. I think I managed to use your advice but tell me one more thing - should I call writeInt() on every array element separately, i.e. call it 4.5M times? –  NPS Sep 11 '12 at 18:55
1  
@NPS - yes, you would call writeInt() for each array element (and optionally first for the array length). –  jtahlborn Sep 11 '12 at 18:58
1  
Thank you, that shrank my loading/saving times drastically, now they're both about 0.25 - 0.3 sec. I'm surprised though - I thought 1 operation saving whole block would be faster than 4.5M operations saving every element but I guess in my case the former just wasn't a single block and 1 operation. :P –  NPS Sep 11 '12 at 19:02
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Something like the following is probably a fairly fast option. You should also use an actual array int[] rather a ArrayList<Integer> if you're concern is reducing overhead.

final Path path = Paths.get("dict.txt");
...
final int[] rsl = dawg.generateArray(trie);
final ByteBuffer buf = ByteBuffer.allocateDirect(rsl.length << 2);

final IntBuffer buf_i = buf.asIntBuffer().put(rsl).flip();
try (final WritableByteChannel out = Files.newByteChannel(path,
    StandardOpenOptions.WRITE, StandardOpenOptions.TRUNCATE_EXISTING)) {
  do {
    out.write(buf);
  } while (buf.hasRemaining());
}

buf.clear();
try (final ReadableByteChannel in = Files.newByteChannel(path,
    StandardOpenOptions.READ)) {
  do {
    in.read(buf);
  } while (buf.hasRemaining());
}
buf_i.clear();
buf_i.get(rsl);
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