I have a big text file (5Mb) that I use in my Android application. I create the file as a list of pre-sorted Strings, and the file doesn't change once it is created. How can I perform a binary search on the contents of this file, without reading line-by-line to find the matching String?

  • Read line by line and use contains() method of String class on each line. – Eng.Fouad Apr 4 '12 at 11:28
  • use Arrays.binarySearch() method – Chandra Sekhar Apr 4 '12 at 11:29
  • I can't read all the file. I get crash and memory exception. Line by line is too slow – Beno Apr 4 '12 at 11:45
up vote 6 down vote accepted

Since the content of the file does not change, you can break the file into multiple pieces. Say A-G, H-N, 0-T and U-Z. This allows you to check the first character and immediately be able to cut the possible set to a fourth of the original size. Now a linear search will not take as long or reading the whole file could be an option. This process could be extended if n/4 is still too large, but the idea is the same. Build the search breakdowns into the file structure instead of trying to do it all in memory.

  • I would second that. Moreover, since (as per your description) you would know the content of the file at the time of its creation, you can further divite the file based on length of the string it contains. So A-G(1-5 characters), A-G(5-* characters) and so on. So at the time of search, you would know which file to open. You will essentially skip N/4 elements at the time of reading the file. – Em Ae Apr 4 '12 at 14:44
  • I was try this solution,There is big difference between n/4 to log(n) this very ugly solution(sorry) Thanks anyway. – Beno Apr 4 '12 at 17:09
  • 1
    @Beno: The point is that if n/4 can fit in memory, then you can read in the smaller chunk and do a binary search -> 1 + log(n) = log(n). All it is doing is treating the first iteration of the binary search algorithm slightly different than the following iterations. – unholysampler Apr 4 '12 at 18:40
  • I was doing n/8 and now its work great!! Thanks... – Beno Apr 4 '12 at 20:49

A 5MB file isn't that big - you should be able to read each line into a String[] array, which you can then use java.util.Arrays.binarySearch() to find the line you want. This is my recommended approach.

If you don't want to read the whole file in to your app, then it gets more complicated. If each line of the file is the same length, and the file is already sorted, then you can open the file in RandomAccessFile and perform a binary search yourself by using seek() like this...

// open the file for reading
RandomAccessFile raf = new RandomAccessFile("myfile.txt","r");
String searchValue = "myline";
int lineSize = 50;
int numberOfLines = raf.length() / lineSize;

// perform the binary search...
byte[] lineBuffer = new byte[lineSize];
int bottom = 0;
int top = numberOfLines;
int middle;
while (bottom <= top){
  middle = (bottom+top)/2;
  raf.seek(middle*lineSize); // jump to this line in the file
  raf.read(lineBuffer); // read the line from the file
  String line = new String(lineBuffer); // convert the line to a String

  int comparison = line.compareTo(searchValue);
  if (comparison == 0){
    // found it
  else if (comparison < 0){
    // line comes before searchValue
    bottom = middle + 1;
  else {
    // line comes after searchValue
    top = middle - 1;

raf.close(); // close the file when you're finished

However, if the file doesn't have fixed-width lines, then you can't easily perform a binary search without loading it into memory first, as you can't quickly jump to a specific line in the file like you can with fixed-width lines.

  • 2
    I have 65000 lines, each line is word. I get crash when I read the file to String[] . each word has diffrent length. – Beno Apr 4 '12 at 18:30

In a uniform character length text file you could seek to the middle of the interval in question character wise, start reading characters until you hit your deliminator, then use the subsequent string as an approximation for the element wise middle. The problem with doing this in android, though, is you apparently can't get random access to a resource (although I suppose you could just reopen it every time). Furthermore this technique doesn't generalize to maps and sets of other types.

Another option would be to (using a RandomAccessFile) write an "array" of ints - one for each String - at the beginning of the file then go back and update them with the locations of their corresponding Strings. Again the search will require jumping around.

What I would do (and did do in my own app) is implement a hash set in a file. This one does separate chaining with trees.

import java.io.BufferedInputStream;
import java.io.DataInputStream;
import java.io.File;
import java.io.FileInputStream;
import java.io.IOException;
import java.io.RandomAccessFile;
import java.util.ArrayList;
import java.util.Collections;
import java.util.LinkedList;
import java.util.Set;

class StringFileSet {

    private static final double loadFactor = 0.75;

    public static void makeFile(String fileName, String comment, Set<String> set) throws IOException {
        new File(fileName).delete();
        RandomAccessFile fout = new RandomAccessFile(fileName, "rw");

        //Write comment

        //Make bucket array
        int numBuckets = (int)(set.size()/loadFactor);

        ArrayList<ArrayList<String>> bucketArray = new ArrayList<ArrayList<String>>(numBuckets);
        for (int ii = 0; ii < numBuckets; ii++){
            bucketArray.add(new ArrayList<String>());

        for (String key : set){

        //Sort key lists in preparation for creating trees
        for (ArrayList<String> keyList : bucketArray){

        //Make queues in preparation for creating trees
        class NodeInfo{

            public final int lower;
            public final int upper;
            public final long callingOffset;

            public NodeInfo(int lower, int upper, long callingOffset){
                this.lower = lower;
                this.upper = upper;
                this.callingOffset = callingOffset;


        ArrayList<LinkedList<NodeInfo>> queueList = new ArrayList<LinkedList<NodeInfo>>(numBuckets);
        for (int ii = 0; ii < numBuckets; ii++){
            queueList.add(new LinkedList<NodeInfo>());

        //Write bucket array
        for (int index = 0; index < numBuckets; index++){
            queueList.get(index).add(new NodeInfo(0, bucketArray.get(index).size()-1, fout.getFilePointer()));

        //Write trees
        for (int bucketIndex = 0; bucketIndex < numBuckets; bucketIndex++){
            while (queueList.get(bucketIndex).size() != 0){
                NodeInfo nodeInfo = queueList.get(bucketIndex).poll();
                if (nodeInfo.lower <= nodeInfo.upper){
                    //Set respective pointer in parent node
                    fout.writeInt((int)(fout.length() - (nodeInfo.callingOffset + 4))); //Distance instead of absolute position so that the get method can use a DataInputStream

                    int middle = (nodeInfo.lower + nodeInfo.upper)/2;


                    //Left child
                    queueList.get(bucketIndex).add(new NodeInfo(nodeInfo.lower, middle-1, fout.getFilePointer()));

                    //Right child
                    queueList.get(bucketIndex).add(new NodeInfo(middle+1, nodeInfo.upper, fout.getFilePointer()));


    private final String fileName;
    private final int numBuckets;
    private final int bucketArrayOffset;

    public StringFileSet(String fileName) throws IOException {
        this.fileName = fileName;

        DataInputStream fin = new DataInputStream(new BufferedInputStream(new FileInputStream(fileName)));

        short numBytes = fin.readShort();
        this.numBuckets = fin.readInt();
        this.bucketArrayOffset = numBytes + 6;


    public boolean contains(String key) throws IOException {
        boolean containsKey = false;

        DataInputStream fin = new DataInputStream(new BufferedInputStream(new FileInputStream(this.fileName)));

        fin.skipBytes(4*(Math.abs(key.hashCode()%this.numBuckets)) + this.bucketArrayOffset);

        int distance = fin.readInt();
        while (distance != -1){

            String candidate = fin.readUTF();
            if (key.compareTo(candidate) < 0){
                distance = fin.readInt();
            }else if (key.compareTo(candidate) > 0){
                distance = fin.readInt();
                containsKey = true;


        return containsKey;


A test program

import java.io.File;
import java.io.IOException;
import java.util.HashSet;

class Test {
    public static void main(String[] args) throws IOException {
        HashSet<String> stringMemorySet = new HashSet<String>();


        StringFileSet.makeFile("stringSet", "Provided under ... included in all copies and derivatives ...", stringMemorySet);
        StringFileSet stringFileSet = new StringFileSet("stringSet");

        System.out.println("orange -> " + stringFileSet.contains("orange"));
        System.out.println("red -> " + stringFileSet.contains("red"));
        System.out.println("yellow -> " + stringFileSet.contains("yellow"));
        System.out.println("blue -> " + stringFileSet.contains("blue"));

        new File("stringSet").delete();


You'll also need to pass a Context to it, if and when you modify it for android, so it can access the getResources() method.

You're also probably going to want to stop the android build tools from compressing the file, which can apparently only be done - if you're working with the GUI - by changing the file's extension to something such as jpg. This made the process about 100 to 300 times faster in my app.

You might also look into giving yourself more memory by using the NDK.

Here's something I quickly put together. It uses two files, one with the words, the other with the offsets. The format of the offset file is this: the first 10 bits contains the word size, the last 22 bits contains the offset (the word position, for example, aaah would be 0, abasementable would be 4, etc.). It's encoded in big endian (java standard). Hope it helps somebody.




00 80 00 00 01 20 00 04 00 80 00 0D 01 00 00 11   _____ __________
01 60 00 19 01 60 00 24 01 E0 00 2F 01 60 00 3E   _`___`_$___/_`_>

I created these files in C#, but here's the code for it (it uses a txt file with words separated by crlfs)

static void Main(string[] args)
    const string fIn = @"C:\projects\droid\WriteFiles\input\allwords.txt";
    const string fwordxOut = @"C:\projects\droid\WriteFiles\output\wordx.dat";
    const string fWordOut = @"C:\projects\droid\WriteFiles\output\word.dat";

    int i = 0;
    int offset = 0;
    int j = 0;
    var lines = File.ReadLines(fIn);

    FileStream stream = new FileStream(fwordxOut, FileMode.Create, FileAccess.ReadWrite);
    using (EndianBinaryWriter wwordxOut = new EndianBinaryWriter(EndianBitConverter.Big, stream))
        using (StreamWriter wWordOut = new StreamWriter(File.Open(fWordOut, FileMode.Create)))
            foreach (var line in lines)
                i = offset | ((int)line.Length << 22); //first 10 bits to the left is the word size
                offset = offset + (int)line.Length;
                //if (j == 7)
                  //  break;

And this is the Java code for the binary file search:

public static void binarySearch() {
    String TAG = "TEST";
    String wordFilePath = Environment.getExternalStorageDirectory().getAbsolutePath() + "/word.dat";
    String wordxFilePath = Environment.getExternalStorageDirectory().getAbsolutePath() + "/wordx.dat";

    String target = "abracadabra"; 
    boolean targetFound = false; 
    int searchCount = 0; 

    try {
        RandomAccessFile raf = new RandomAccessFile(wordxFilePath, "r");
        RandomAccessFile rafWord = new RandomAccessFile(wordFilePath, "r");
        long low = 0;
        long high = (raf.length() / 4) - 1;
        int cur = 0;
        long wordOffset = 0;
        int len = 0;

        while (high >= low) {
            long mid = (low + high) / 2;
            raf.seek(mid * 4);
            cur = raf.readInt();
            Log.v(TAG + "-cur", String.valueOf(cur));

            len = cur >> 22; //word length

            cur = cur & 0x3FFFFF;  //first 10 bits are 0

            byte [] bytes = new byte[len];

            wordOffset = rafWord.read(bytes, 0, len);
            Log.v(TAG + "-wordOffset", String.valueOf(wordOffset));


            String str = new String(bytes);

            Log.v(TAG, str);

            if (target.compareTo(str) < 0) {
                high = mid - 1;
            } else if (target.compareTo(str) == 0) {
                targetFound = true;
            } else {
                low = mid + 1;

    } catch (FileNotFoundException e) {
    } catch (IOException e) {

    if (targetFound == true) {
        Log.v(TAG + "-found " , String.valueOf(searchCount));
    } else {
        Log.v(TAG + "-not found " , String.valueOf(searchCount));


Though it might sound like overkill, don't store data you need to do this with as a flat file. Make a database and query the data in the database. This should be both effective and fast.

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