Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am trying to find a data structure that takes in a particular value from a range of values and map it to a key.

For example, I have the following conditions:

  1. From 1 to 2.9, I want to map it to A.
  2. From 4 to 6, I want to map it to B.
  3. From 6.5 to 10, I want to map it to C.

I have a value of 5 and I would like to map it to a key. So based on the above conditions, I should map it to B.

Is there any data structure in Java that anyone can recommend to me to solve the problem?

Currently I am using a hashtable that can only map a value to a key. I tried to map the range of values to a particular value that exists in the hashtable. However, I got stuck in the mapping of the range of values to a particular value. So now I am trying to do another way of mapping the ranges of values to a key. Does anyone have any idea how I can solve this problem?


Thanks to Martin Ellis, I decided to use TreeMap to solve the problem.

share|improve this question
Guava will get a RangeMap structure that does almost exactly this in 14.0. –  Louis Wasserman Nov 15 '12 at 21:53

6 Answers 6

up vote 18 down vote accepted

Are your ranges non-overlapping? If so you could use a TreeMap:

TreeMap<Double, Character> m = new TreeMap<Double, Character>();
m.put(1.0, 'A');
m.put(2.9, null);
m.put(4.0, 'B');
m.put(6.0, null);
m.put(6.5, 'C');
m.put(10.0, null);

The lookup logic is a bit complicated by the fact that you probably want an inclusive lookup (i.e. 2.9 maps to 'A', and not undefined):

private static <K, V> V mappedValue(TreeMap<K, V> map, K key) {
    Entry<K, V> e = map.floorEntry(key);
    if (e != null && e.getValue() == null) {
        e = map.lowerEntry(key);
    return e == null ? null : e.getValue();


mappedValue(m, 5) == 'B'

More results include:

0.9 null
1.0 A
1.1 A
2.8 A
2.9 A
3.0 null
6.4 null
6.5 C
6.6 C
9.9 C
10.0 C
10.1 null
share|improve this answer
Thanks so much for your solution! It seems to fit my requirements perfectly. Unfortunately, I cannot seems to be able to build the treemap properly. I cannot seems to be able to add a new range. For example, 'm.put(val_min, "A");m.put(val_max, null);/* make some changes to val_min and val_max*/m.put(val_min, "B");m.put(val_max, null);', if I pass a value that has a key of B but always get A. Do you have any idea why? –  Sakura Nov 15 '12 at 16:04
If you're using "A" and not 'A', then you'd need to replace Character with String. Is there something else that's not working for you? –  Martin Ellis Nov 15 '12 at 16:07
I have added a snapshot of the code that is not working in my original post. –  Sakura Nov 15 '12 at 16:09
Here's my full example and output: gist.github.com/4079452 –  Martin Ellis Nov 15 '12 at 16:16
Can you add the result of System.out.println(m) so I can see what the map looks like? For one thing, need to check the ranges aren't overlapping. –  Martin Ellis Nov 15 '12 at 16:17

This seems like a natural situation to use a tree structure.

Unfortunately it won't be practical to implement the java.util.Map interface because it specifies a method to return all of the keys, and in your situation you theoretically have an impractically large number of keys.

Each node of your tree should have a minimum key, a maximum key, and a value associated with that range. You can then have links to the nodes representing the next higher and next lower range (if they exist). Something like:

public class RangeMap<K extends Comparable<K>, V> {
    protected boolean empty;
    protected K lower, upper;
    protected V value;
    protected RangeMap<K, V> left, right;

    public V get(K key) {
        if (empty) {
            return null;

        if (key.compareTo(lower) < 0) {
            return left.get(key);

        if (key.compareTo(upper) > 0) {
            return right.get(key);

        /* if we get here it is in the range */
        return value;

    public void put(K from, K to, V val) {
        if (empty) {
            lower = from;
            upper = to;
            value = val;
            empty = false;
            left = new RangeMap<K,V>();
            right = new RangeMap<K,V>();

        if (from.compareTo(lower) < 0) {
            left.put(from, to, val);

        if (to.compareTo(upper) > 0) {
            right.put(from, to, val);

        /* here you'd have to put the code to deal with adding an overlapping range,
           however you want to handle that. */

    public RangeMap() {
        empty = true;

If you need faster lookups than the tree can provide, you may want to look into something like a skip list or developing your own hash function.

share|improve this answer

A HashMap will not work for mapping ranges to values unless you find a way to generate a hashcode for ranges and single values in there that matches. But below approach could be what you are looking for

public class RangeMap {
    static class RangeEntry {
        private final double lower;
        private final double upper;
        private final Object value;
        public RangeEntry(double lower, double upper, Object mappedValue) {
            this.lower = lower;
            this.upper = upper;
            this.value = mappedValue;
        public boolean matches(double value) {
            return value >= lower && value <= upper;
        public Object getValue() { return value; }

    private final List<RangeEntry> entries = new ArrayList<RangeEntry>();
    public void put(double lower, double upper, Object mappedValue) {
        entries.add(new RangeEntry(lower, upper, mappedValue));
    public Object getValueFor(double key) {
        for (RangeEntry entry : entries) {
            if (entry.matches(key))
                return entry.getValue();
        return null;

You could do

RangeMap map = new RangeMap();
map.put(1, 2.9, "A");
map.put(4, 6, "B");

map.getValueFor(1.5); // = "A"
map.getValueFor(3.5); // = null

It's not very efficient since it's just iterating over a list and it will in that state not complain if you put conflicting ranges in there. Will just return the first it finds.

P.S.: mapping like this would be mapping a range of keys to a value

share|improve this answer

This type of data structure is called an Interval Tree. (The Wikipedia page only presents the case where intervals may overlap, but one can imagine a case where you want to remove mappings for any overlapped intervals when you add a new interval. Do a Google search for implementations and see if any fit your needs.

share|improve this answer

One of the way would be, use one of list implementation as value for key.

map.put("A", ArrayList<Integer>);
share|improve this answer
Hi. The range of values are double and can have many decimal places. In that case, should I add all the possible values (in double) into the list of doubles that is the value of the hashtable/map? –  Sakura Nov 15 '12 at 14:46
Yes. That should work. –  Nambari Nov 15 '12 at 14:47
But how do I retrieve the key from the hashtable/map? –  Sakura Nov 15 '12 at 14:49
You can use keySet() if you use HashMap. Iterate on keySet, identify key is there or not, if there get values List, if not create new list and key. –  Nambari Nov 15 '12 at 14:50
I am using hashtable and previously used get() to get the key. Can I use the same method in this case although my value is a list of doubles? –  Sakura Nov 15 '12 at 14:51

just have an List as a value in your Map.

Map<String, List<Double>> map = new HashMap<String, List<Double>>();

and also one Suggustion:

do not use Hashtable unless you want synchronized access.


Hashtable methods are synchronized, i.e., no two threads can access those methods at a single point of time. HashMap menthods are not Synchronized. If you use Hashtable there will be a performance hit. use HashMap for better performance.

share|improve this answer
Hi. The range of values are double and can have many decimal places. In that case, should I add all the possible values (in double) into the list of doubles that is the value of the hashtable/map? –  Sakura Nov 15 '12 at 14:47
yepp, check my Edit. –  PermGenError Nov 15 '12 at 14:48
Thanks! What do you mean by synchronized access? –  Sakura Nov 15 '12 at 14:52
I would say to not use Hashtable at all. If you need to handle concurrency, you would better use a ConcurrentHashMap as shown here, if you're not worried about concurrency (i.e. a simple Java program with no threads) you can use a HashMap. Also, it would be better to use List<Double> instead of ArrayList<Double> for the definition. See What does it mean to “program to an interface”?. –  Luiggi Mendoza Nov 15 '12 at 14:52
@LuiggiMendoza thanks for your suggestions, i changed it to List<Double> :) –  PermGenError Nov 15 '12 at 14:59

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.