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As part of a project I'm working on, I'd like to clean up a file I generate of duplicate line entries. These duplicates often won't occur near each other, however. I came up with a method of doing so in Java (which basically made a copy of the file, then used a nested while-statement to compare each line in one file with the rest of the other). The problem, is that my generated file is pretty big and text heavy (about 225k lines of text, and around 40 megs). I estimate my current process to take 63 hours! This is definitely not acceptable.

I need an integrated solution for this, however. Preferably in Java. Any ideas? Thanks!

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9 answers and no votes up? this is a perfectly valid and well formulated question – Peter Perháč Jun 15 '09 at 13:32

14 Answers 14

up vote 27 down vote accepted

Hmm... 40 megs seems small enough that you could build a Set of the lines and then print them all back out. This would be way, way faster than doing O(n2) I/O work.

It would be something like this (ignoring exceptions):

public void stripDuplicatesFromFile(String filename) {
    BufferedReader reader = new BufferedReader(new FileReader(filename));
    Set<String> lines = new HashSet<String>(10000); // maybe should be bigger
    String line;
    while ((line = reader.readLine()) != null) {
    BufferedWriter writer = new BufferedWriter(new FileWriter(filename));
    for (String unique : lines) {

If the order is important, you could use a LinkedHashSet instead of a HashSet. Since the elements are stored by reference, the overhead of an extra linked list should be insignificant compared to the actual amount of data.

Edit: As Workshop Alex pointed out, if you don't mind making a temporary file, you can simply print out the lines as you read them. This allows you to use a simple HashSet instead of LinkedHashSet. But I doubt you'd notice the difference on an I/O bound operation like this one.

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that's the answer I was going to give – David Johnstone Jun 15 '09 at 13:19
yea, 40 megs is nothing, read the whole thing into memory, dump it to a hashset to keep only unique lines, write it back to disk. – z - Jun 15 '09 at 13:21
Depending on the questioner's requirements, you may need to keep track of the line number, because iterating over a HashSet will return the lines in a pretty arbitrary order. – Simon Nickerson Jun 15 '09 at 13:25
You could initialize the hashset with a value like #lines / 0.75 because HashSet will make a new table and rehash everything if it reaches its default fill-grade of 75%. Another possibility would be to create the HashSet with a fillgrade of 1.0f (100%) and a size that is a bit bigger then your data-count -> "new HashSet(300000, 1.0f)". This way you can avoid expensive rehashing. – Philipp Jun 15 '09 at 13:30
You could simplify this code by using readLines() and writeLines() from Commons IO's FileUtils,…. (I'm not sure whether that would affect the scalability though.) – Jonik Jun 15 '09 at 13:32

Okay, most answers are a bit silly and slow since it involves adding lines to some hashset or whatever and then moving it back from that set again. Let me show the most optimal solution in pseudocode:

Create a hashset for just strings.
Open the input file.
Open the output file.
while not EOF(input)
  Read Line.
  If not(Line in hashSet)
    Add Line to hashset.
    Write Line to output.
  End If.
End While.
Free hashset.
Close input.
Close output.

Please guys, don't make it more difficult than it needs to be. :-) Don't even bother about sorting, you don't need to.

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+1 for stating the bleeding obvious I should've seen when writing my answer. D'oh! :) – gustafc Jun 15 '09 at 14:20
True; I was doing it without a temporary file, but it might be a little more efficient with one (no LinkedHashSet necessary). But I'd venture a guess that CPU isn't going to be the bottleneck anyway. – Michael Myers Jun 15 '09 at 14:21
Er, my comment was directed at Workshop Alex, not gustafc. – Michael Myers Jun 15 '09 at 14:22
Of course, instead of using an output file, you could output to an unsorted string list, in memory. Then, when you're done adding the input without duplicates, write the string list over the old input file. It does mean you'll be using twice as much memory than with other solutions, but it's still extremely fast. – Wim ten Brink Jun 16 '09 at 9:39
That's because it stores the strings twice: once in the hash table and once in the string list. (Then again, chances are that both the hashset and string list only store references to strings, in which case it won't eat up that much.) – Wim ten Brink Jun 16 '09 at 21:15

Something like this, perhaps:

BufferedReader in = ...;
Set<String> lines = new LinkedHashSet();
for (String line; (line = in.readLine()) != null;)
    lines.add(line); // does nothing if duplicate is already added
PrintWriter out = ...;
for (String line : lines)

LinkedHashSet keeps the insertion order, as opposed to HashSet which (while being slightly faster for lookup/insert) will reorder all lines.

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A similar approach

public void stripDuplicatesFromFile(String filename) {
        new LinkedHashSet<String>(IOUtils.readLines(new FileInputStream(filename)),
        "\n", new FileOutputStream(filename + ".uniq"));
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Shouldn't the latter FileInputStream actually be a FileOutputStream? Other than that, +1 for a simplicity and "knowing and using the libraries". – Jonik Jun 23 '09 at 20:43
Also, it's worth mentioning that IOUtils is from Apache Commons IO (; that probably isn't obvious to every reader. – Jonik Jun 23 '09 at 20:46
@Jonik, thank for you pointing out those two comments. – Peter Lawrey Jun 25 '09 at 17:49

You could use Set in the Collections library to store unique, seen values as you read the file.

Set<String> uniqueStrings = new HashSet<String>();

// read your file, looping on newline, putting each line into variable 'thisLine'


// finish read

for (String uniqueString:uniqueStrings) {
  // do your processing for each unique String
  // i.e. System.out.println(uniqueString);
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Try a simple HashSet that stores the lines you have already read. Then iterate over the file. If you come across duplicates they are simply ignored (as a Set can only contain every element once).

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you're better off with some sort of set rather than a map – David Johnstone Jun 15 '09 at 13:20
That's why I already fixed it ;) – Kevin Dungs Jun 15 '09 at 13:23
I've done something similar in Delphi once, although I had to write my own HashSet class to do this. The only drawback is that you need lots of memory with huge files, which is fine if you do this client-side but not on a server. Basically, the project that needed this managed to read a file of 500k lines and delete all duplicates within two minutes. – Wim ten Brink Jun 15 '09 at 13:44
However, I just read a line, checked if it was in the hash-set and if it wasn't, I would add it and write it to file. Otherwise, I'd just skip to the next line. That way, I'm not reading back from the hashset and best of all: I kept all lines in the same order. – Wim ten Brink Jun 15 '09 at 13:46
  • Read in the file, storing the line number and the line: O(n)
  • Sort it into alphabetical order: O(n log n)
  • Remove duplicates: O(n)
  • Sort it into its original line number order: O(n log n)
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If the order does not matter, the simplest way is shell scripting:

<infile sort | uniq > outfile
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The Hash Set approach is OK, but you can tweak it to not have to store all the Strings in memory, but a logical pointer to the location in the file so you can go back to read the actual value only in case you need it.

Another creative approach is to append to each line the number of the line, then sort all the lines, remove the duplicates (ignoring the last token that should be the number), and then sort again the file by the last token and striping it out in the output.

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If you could use UNIX shell commands you could do something like the following:

for(i = line 0 to end)
    sed 's/\$i//2g' ; deletes all repeats

This would iterate through your whole file and only pass each unique occurrence once per sed call. This way you're not doing a bunch of searches you've done before.

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There are two scalable solutions, where by scalable I mean disk and not memory based, depending whether the procedure should be stable or not, where by stable I mean that the order after removing duplicates is the same. if scalability isn't an issue, then simply use memory for the same sort of method.

For the non stable solution, first sort the file on the disk. This is done by splitting the file into smaller files, sorting the smaller chunks in memory, and then merging the files in sorted order, where the merge ignores duplicates.

The merge itself can be done using almost no memory, by comparing only the current line in each file, since the next line is guaranteed to be greater.

The stable solution is slightly trickier. First, sort the file in chunks as before, but indicate in each line the original line number. Then, during the "merge" don't bother storing the result, just the line numbers to be deleted.

Then copy the original file line by line, ignoring the line numbers you have stored above.

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Does it matter in which order the lines come, and how many duplicates are you counting on seeing?

If not, and if you're counting on a lot of dupes (i.e. a lot more reading than writing) I'd also think about parallelizing the hashset solution, with the hashset as a shared resource.

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Not a bad idea, but since the input file is only 40 megabytes I don't think that it will be a problem. – Michael Myers Jun 15 '09 at 13:47
I guess. But parallelizing stuff is phun! :3 – mikek Jun 15 '09 at 13:52

I have made two assumptions for this efficient solution:

  1. There is a Blob equivalent of line or we can process it as binary
  2. We can save the offset or a pointer to start of each line.

Based on these assumptions solution is: a line, save the length in the hashmap as key , so we have lighter hashmap. Save the list as the entry in hashmap for all the lines having that length mentioned in key. Building this hashmap is O(n). While mapping the offsets for each line in the hashmap,compare the line blobs with all existing entries in the list of lines(offsets) for this key length except the entry -1 as offset.if duplicate found remove both lines and save the offset -1 in those places in list.

So consider the complexity and memory usage:

Hashmap memory ,space complexity = O(n) where n is number of lines

Time Complexity - if no duplicates but all equal length lines considering length of each line = m, consider the no of lines =n then that would be , O(n). Since we assume we can compare blob , the m does not matter. That was worst case.

In other cases we save on comparisons although we will have little extra space required in hashmap.

Additionally we can use mapreduce on server side to split the set and merge results later. And using length or start of line as the mapper key.

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void deleteDuplicates(File filename) throws IOException{
    BufferedReader reader = new BufferedReader(new FileReader(filename));
    Set<String> lines = new LinkedHashSet<String>();
    String line;
    String delims = " ";
    System.out.println("Read the duplicate contents now and writing to file");
        line = line.trim(); 
        StringTokenizer str = new StringTokenizer(line, delims);
        while (str.hasMoreElements()) {
            line = (String) str.nextElement();
            BufferedWriter writer = new BufferedWriter(new FileWriter(filename));
            for(String unique: lines){
                writer.write(unique+" ");               
    System.out.println("Duplicate removal successful");
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