# Sorting millions of int/string pairs using Java

I have 50,000,000 (integer, string) pairs in a text file. The integers are times in milliseconds, so are 13 digits long (e.g. 1337698339089).

The entries in the text file are like this:

1337698339089|blaasdasd
1337698339089|asdasdas
1337698338089|kasda

There can be identical entries.

I want to sort the entries on the integers (in ascending order) preserving any duplicate integers and preserving the (integer, string) pairs. The approach I have taken is leading to memory errors, and so I'm looking for alternative approaches.

My approach is something like this (using some pseudo-code):

// declare TreeMap to do the sorting
TreeMap<Double, String> sorted = new TreeMap<Double, String>();

// loop through entries in text file, and put each in the treemap:
for each entry (integer, string) in the text file:

Random rand = new Random();
double inc = 0.0;

while (sorted.get(integer + inc) != null) {
inc = rand.nextDouble();
}

sorted.put(integer + inc, string);

I am using random numbers here to ensure that duplicate integers can be entered in the treemap (by incrementing them by a double between 0 and 1).

// to print the sorted entries:
for (Double d : sorted.KeySet()) {
System.out.println(Math.round(d) + "|" + sorted.get(d));
}

This approach works but breaks down for 50,000,000 entries (I think because the treemap is becoming too large; or possibly because the while loop is running for too long).

I would like to know what approach more experienced programmers would take.

Many thanks!

-
Homework? Why not just use built in java methods. Or semi-copy them. They're quite optimized. –  keyser May 22 '12 at 15:05
I'd just fill a vector/arraylist and then sort it out –  BigMike May 22 '12 at 15:07
Don't use java for this. sort -n is your friend. –  artbristol May 22 '12 at 15:09
Is it mandatory to use java? Using a database and sql for that might be a better idea. –  olchauvin May 22 '12 at 15:11
Did you try to use time : linenumber pairs? You wont need the strings until you write the result. You just need to read the file two times. –  josefx May 22 '12 at 15:12

You should be able to do this with a list, if you have enough memory. I would create a separate class for the entry:

class Foo : Comparable<Foo> {
private final long time;
private final String text;

// Constructor etc
}

In terms of memory, you need to be able to store 50 million instances, and references to them. On a 32-bit JVM, that would be:

• 8 bytes of overhead per object (IIRC)
• 8 bytes for the time
• 4 bytes for the text field
• ~54 bytes for the string (8 byte overhead + three int fields IIRC + char[] array reference + ~32 bytes for a 10 character array)
• 4 bytes for the reference in the array or ArrayList

So that's about 80 bytes per instance - say 100 to round up. To store 50,000,000 of those would take 5,000,000,000 bytes, aka 5GB, which is more than I believe a 32-bit JVM will cope with.

So to do all this in memory, you'll need a 64-bit machine and 64-bit JVM, and then the overhead potentially increases somewhat due to larger references etc. Feasible, but not terribly pleasant.

A large part of this is due to the strings, however. If you really wanted to be efficient, you could create a giant char array, then store offsets into it within Foo. Read into the array as you read the text data, and then use it to write out the data after sorting. More complex, and ugly, but considerably more memory-efficient.

Alternatively, you could do this not all in memory - I'm sure if you search around you'll find lots of information about sorting via the file system.

-
Jon, excuse me, how c# behaves in a similar scenario ? How much memory will it use ? –  BigMike May 22 '12 at 15:18
@BigMike: The .NET string implementation would only use one object rather than two, which would reduce the overhead a bit. Additionally, using a custom value type you could potentially avoid a fair amount of per object overhead for Foo - at the cost of making it more expensive to copy values of type Foo. The general principle would be the same, but it's possible that with the reduced overhead you might be able to fit the 50 million entries into memory. –  Jon Skeet May 22 '12 at 15:20
thanks for clarification, yet I do suspect that .NET is a little more friendly on 64 bit OS than JVM. –  BigMike May 22 '12 at 15:22
@JonSkeet - thanks. I'm going to try this approach... I don't fully understand the char array suggestion. What I may do is allocate an index number to each string, and store these in a text file, so I can replace the strings with integers. It will be a little while until I'm able to implement your suggestions - will get back when I've tried. –  Andrew May 22 '12 at 15:24
@JonSkeet At that point... if needed, why not do a breakout into time-ranges... say by month, quarter or year... parse the big file into separate files that can be individually sorted and recombined: "Foreach line in file => Extract date => println into (yyyymm.txt, yyyyQ#, etc) ... sort each file and append to sorted.txt". –  WernerCD May 22 '12 at 16:20

Why use a double to store a long?

A Map<Long, String> cannot have duplicate keys. One will overwrite the other.

I doubt that you can fit all this into memory. That's 0.5 GB just for storing the longs, more for the Strings. You probably can't do it with 32 bit JVM.

-

I might consider using a database (like H2; which is convenient since you can pull it right into your Java project) and setup the index the way you want it. Databases have already solved the problem of dealing with a lot of data and organizing it. Then you can do a SQL query to get the results in order and write them back out.

The result set will stream the data out to you in chunks; not try to load everything into a single list.

While H2 does support in memory; I would configure it to use a disk in this case unless you have a lot of RAM and 64bit Java.

-
+1 for a great practical solution. H2 is a good fit for these types of tasks. –  Zsolt Török May 23 '12 at 8:47
I think you will find H2 does not work well with 50 million records. I have found sqlite to scale better than H2 (bitbucket.org/xerial/sqlite-jdbc) –  Jay Askren Jun 13 '13 at 19:27

Did you give the JVM more memory? Try running it with a -Xmx1024M command line option. And the treeMap seems needlessly complicated, you can use the built-in Java commands

-

Your issue looks to be of 2 parts:

1. The Algorithm: I would recommend using some of the build in java sorting algorithms. Easy to find references on google, such as this.
2. The JVM: The root of your issue sounds like you might not have enough memory allocated to your java virtual machine. I would recommend increasing the max size, since you are dealing with a descent amount of information.

The JVM args you are looking for should be:

• -Xms specifies the initial Java heap size and

• -Xmx the maximum Java heap size.

-

What was the error thrown? Can you successfully load all the data into memory? I suggest you try the Java Comparator class. Maybe I will try something like creating a custom object to represent the pair:

class Entry{
long i;
String s;
}

Then create a custom Comparator

class IComp implements Comparator<Entry>{
public int compare(Entry e1, Entry e2){
if(e1.i < e2.i) return -1;
//complete the rest

}
}

Then put all objects into an array Entry[] entry, and create a comparator IComp icomp Use Arrays.sort(entry, icomp)

As you will be creating 50 million objects you need to ensure there's enough heapspace.

If you have a large number of duplicate Strings, and if these Strings are immutable; you may create a Set to store the Strings, and recycle them to create lighter weight objects in your Entry

Entry.s = set.get()...

-

I would love to solve this by sorting chunks of data and write them into different files and applying a merge sort on those files.. Here's working demo, which might helpful for your scenario.

-

I am not sure if you are going to use all the of the values when you are done sorting. But the number 50million gives me a hint that it's possible you're just going to take the top X values after the sort and do something with them.

In that case: Just make use a min heap, every time you encounter a number that is larger than the top of the heap, remove the min from the heap and add the new number. This way you do not have to keep all the numbers in memory, only X of them.

-