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I am using Java's Arrays.sort() function to sort a list of files by their last modified time. The sort for 245 files is taking around 5 seconds. This seems too long to me. I feel it shouldn't take more than 0.5 seconds. Is that a good assumption? What am I doing wrong? OR does this sound normal?

public static class LastModifiedComparator implements Comparator<File> {
    @Override
    public int compare(File f1, File f2) {
        return (int)(f1.lastModified() - f2.lastModified());
    }       
}

File folder = new File( "C:\\Whatever\\" );
File[] filesInFolder = folder.listFiles();
logger.debug("Starting File Sort");
Arrays.sort(filesInFolder, new LastModifiedComparator());
logger.debug("Done File Sort");

Output in Log

2012-08-10 14:24:20,333 DEBUG http-8080-4 <ClassName>:73 - Starting File Sort
2012-08-10 14:24:25,915 DEBUG http-8080-4 <ClassName>:75 - Done File Sort
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If the files are unique (all have different equals methods) it would be interesting to use a TreeSet and see what happens. You may have to wrap the file in another class implementing comparator. 5 seconds does seem a long time though! –  RNJ Aug 10 '12 at 18:34
    
How many files are there in the folder? –  gotuskar Aug 10 '12 at 18:34
    
Also have you tried it as a collection and using a ArrayList and Collections.sort(). Is that any different? –  RNJ Aug 10 '12 at 18:34
    
You don't tell us how large this array is that you're sorting. It could easily be that the array is very large. –  Makoto Aug 10 '12 at 18:34
    
He says there are 245 files –  RNJ Aug 10 '12 at 18:36

5 Answers 5

up vote 22 down vote accepted

You will need to improve your Comparator logic. You need to cache the lastModified() values because the implementation of that method is quite slow. I suggest wrapping the File instances into a comparable object of your making that will cache the value:

public class FileLmWrapper implements Comparable<FileLmWrapper> {
  public final File f;
  public final long lastModified;
  public FileLmWrapper(File f) { 
    this.f = f; 
    lastModified = f.lastModified();
  }
  public int compareTo(FileLmWrapper other) {
    return Long.compare(this.lastModified, other.lastModified);
  }
}
share|improve this answer
1  
+1. Excellent example of caching... –  SiB Aug 10 '12 at 18:41
    
Thanks, the wrapper worked like a charm! The sort is in the order of milliseconds now. However, the whole operation still takes around 1 second. I'm guessing constructing those 245 FileLmWrapper objects takes time. Maybe I should try putting the times in a HashMap instead of using a wrapper! –  Danish Aug 10 '12 at 18:56
4  
@Danish 245 object allocations is going to take virtually no time. If you look at my post below, I actually predicted that it would take you about 1 second by extrapolating from how long each call to lastModified() takes. –  yshavit Aug 10 '12 at 19:06
    
Yes, you are correct it the lastModified() that will define the lower limit on the run-time of this operation. –  Danish Aug 10 '12 at 19:27
1  
@yshavit Probably because the folder is on a network drive. That's one piece of information I missed to mention in my question. –  Danish Aug 13 '12 at 12:58

File.lastModified has to go to the OS to query when the file was last modified -- it's not cached. You're doing that twice per comparison, and Arrays.sort uses a mergesort -- O(n log n). Plugging in 245 for n, That's about 580 comparisons, or 1100 calls to the OS to get the last modified time. That means you can get about 230 last-modified calls per second. That seems maybe a bit slow, but certainly more plausible than an in-JVM comparison taking that long

As Marko Topolnik abd NgSan points out above, the fix would be to first cache the last-modified times for all the Files. I would do it by creating a new class object that combines the File and that time, and then sort those objects. That way you'll have only 245 calls to File.lastModified, and the sort should take about 1/5th the time.

share|improve this answer
    
good explanation. –  Eugene Aug 10 '12 at 18:40
    
Here you assume that all of O(n log n) stems from comparisons. Is it really so? There's also copying and merging involved. –  Marko Topolnik Aug 10 '12 at 18:45
    
I think the bulk of it is, yes. I whipped up a quick little test that shows it: pastebin.com/Z7DNtiF1 (warning: will spam your working directory with a ton of empty files!) –  yshavit Aug 10 '12 at 19:04
    
@MarkoTopolnik And just to round it out: When I ran that program on my machine, the ints had 1721 comparisons and took 2.1 ms. The files had 244 comparisons (they all have the same lastModified time since they get created so quickly, so the sort is just O(n)) and still took 5.5 ms. If the files were randomly ordered by modification date, it would have taken about 39.0 ms (still much quicker than OP's! I don't know what's wrong with his disk). –  yshavit Aug 10 '12 at 19:14
    
How do you know its a disk? It might be network drive for all we know ... –  meriton Aug 10 '12 at 21:25

I don't know for sure, but it sounds like it's doing disk I/O each time you read the Modified Time- thus the slowness. It might be faster to simply get the modified times in an object along with the File object, and then sort.

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Your compare operation

@Override
public int compare(File f1, File f2) {
    return (int)(f1.lastModified() - f2.lastModified());
}  

isn't just a getter but issues a call to get the information from file system so the high response time of sort is moreover due to the performance of lastModified() than compare().

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The sort implemented in java in modified Quick Sort tuned Merge Sort which will have average running time complexity of O(nlogn).
So we need to concentrate on your File operations like getting lastModifiedTime. Are you sure those files are local files or shared drive which takes the network latency?

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1  
Actually it's merge sort, which does much less comparison than quick sort, at the expense of more memory. –  Marko Topolnik Aug 10 '12 at 18:50
    
Thanks for correcting me, You are right. Actually only for primitive types its doing tuned quick sort but in case of objects, merge sort is implemented. –  sundar Aug 10 '12 at 18:56

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