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I would like to use case insensitive string as a HashMap key for the following reasons.

  • During initialization program creates HashMap with user defined String
  • While processing an event (network traffic in my case) I might received String in a different case but I should be able to locate the from HashMap ignoring the case I received from traffic.

I've followed this approach

    public final class CaseInsensitiveString {
            private String s;

            public CaseInsensitiveString(String s) {
                            if (s == null)
                            throw new NullPointerException();
                            this.s = s;

            public boolean equals(Object o) {
                            return o instanceof CaseInsensitiveString &&

            private volatile int hashCode = 0;

            public int hashCode() {
                            if (hashCode == 0)
                            hashCode = s.toUpperCase().hashCode();

                            return hashCode;

            public String toString() {
                            return s;

    node = nodeMap.get(new CaseInsensitiveString(stringFromEvent.toString()));

Because of this, I'm creating a new object of CaseInsensitiveString for every event. So, it might hit performance.

Is there any other way to solve this issue?

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[Is there a good way to have a Map<String, ?> get and put ignore case?][1] [1]:… –  Beau Grantham Nov 23 '11 at 3:27
I've commented on the issues below, but they are below the threshold so people may not see them. Beware of subclassing HashMap. JDK8 has changed the implementation and you now need to override putAll (at least) in order to get those suggestions to work. –  Steve N Apr 5 '14 at 10:45
This should work fine. You can use a flyweight to get rid of the new object instantiation. –  topkara Aug 9 at 23:35

8 Answers 8

Map<String, String> nodeMap = 
    new TreeMap<String, String>(String.CASE_INSENSITIVE_ORDER);

That's really all you need.

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This is the simplest by far, and also preserves the case of the keys when iterating through them. –  Ralf Aug 11 '14 at 8:31
This is beautiful! This was the final piece of the puzzle for creating an ordered struct in ColdFusion that preserves the ability to use dot notation. Instead of var struct = {} or var struct = structnew() you can use var struct = createObject('java','java.util.TreeMap').init(createObject('java','java.lang.Str‌​ing').CASE_INSENSITIVE_ORDER); FUGLY, but it works ;) –  Eric Fuller Nov 27 '14 at 4:09
public static <K extends String, V> Map<K, V> caseInsensitiveMap() { return new TreeMap<K, V>(String.CASE_INSENSITIVE_ORDER); } –  pllee Feb 2 at 19:47
No need for <K extends String> since String is final: public static <V> Map<String, V> caseInsensitiveMap() { return new TreeMap<String, V>(String.CASE_INSENSITIVE_ORDER); } –  Roel Spilker Feb 3 at 10:02
Keep in mind that TreeMap is not constant time for basic operations. Not an issue for most applications, but worth keeping in mind. From JavaDoc: "This implementation provides guaranteed log(n) time cost for the containsKey, get, put and remove operations. Algorithms are adaptations of those in Cormen, Leiserson, and Rivest's Introduction to Algorithms." –  James Schek Feb 14 at 0:25
import java.util.HashMap;

public class CaseInsensitiveMap extends HashMap<String, String> {

    public String put(String key, String value) {
       return super.put(key.toLowerCase(), value);

    // not @Override because that would require the key parameter to be of type Object
    public String get(String key) {
       return super.get(key.toLowerCase());


PS: Just copied from one of the answers on StackOverflow ;)

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+1: This is the easiest and least bug-prone way by far. –  Cameron Skinner Nov 23 '11 at 3:39
How about contains, putAll, etc.? –  assylias Sep 25 '12 at 17:26
This does not work in some languages, like Turkish. Google "The turkey test" –  Hugo Jan 18 '13 at 14:30
@assylias: true, containsKey() and remove() should be overriden in the same fashion as get(). the HashMap.putAll() implementation uses put(), so that shouldn't be a problem - as long as the HashMap implementation stays the same. ;) also the get() method signature takes an Object as argument, not a String. the code also doesn't test for a null key: super.get(key == null ? null : key.toString().toLowercase()); –  sfera Feb 7 '13 at 11:29
note that if you require the copy-constructor HashMap(<? extends String, ? extends String> anotherMap), then you shouldn't call the super implementation of the same constructor as that operation will not guarantee that your keys are lower case. you could use: super(anotherMap.size()); putAll(anotherMap); instead. –  sfera Feb 7 '13 at 14:31

One approach is to create a custom subclass of the Apache Commons AbstractHashedMap class, overriding the hash and isEqualKeys methods to perform case insensitive hashing and comparison of keys. (Note - I've never tried this myself ...)

This avoids the overhead of creating new objects each time you need to do a map lookup or update. And the common Map operations should O(1) ... just like a regular HashMap.

And if you are prepared to accept the implementation choices they have made, the Apache Commons CaseInsensitiveMap does the work of customizing / specializing AbstractHashedMap for you.

But if O(logN) get and put operations are acceptable, a TreeMap with a case insensitive string comparator is an option; e.g. using String.CASE_INSENSITIVE_ORDER.

And if you don't mind creating a new temporary String object each time you do a put or get, then Vishal's answer is just fine. (Though, I note that you wouldn't be preserving the original case of the keys if you did that ...)

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Isn't the first approach same as link CaseInsensitiveMap? Please advise. –  SandyR Nov 23 '11 at 4:07
Most likely yes, though you could choose to not allow null keys if you implemented this yourself. –  Stephen C Nov 23 '11 at 6:12
Thanks for your input. It helped. –  SandyR Nov 23 '11 at 8:58

Subclass HashMap and create a version that lower-cases the key on put and get (and probably the other key-oriented methods).

Or composite a HashMap into the new class and delegate everything to the map, but translate the keys.

If you need to keep the original key you could either maintain dual maps, or store the original key along with the value.

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Do you mean do a String.toLowerCase() during lookup? –  SandyR Nov 23 '11 at 3:28
@user710178 Not just during lookup, but during storage as well. –  Dave Newton Nov 23 '11 at 3:31
@user710178 Oh, right, as that other answer points out, this already exists, if you don't mind an additional dependency. –  Dave Newton Nov 23 '11 at 3:32
yes. Thanks for your reply. –  SandyR Nov 23 '11 at 3:32
For JDK 8 and above you'll also need to (at least) override putAll as the implementation has changed. –  Steve N Apr 5 '14 at 10:43

Wouldn't it be better to "wrap" the String in order to memorize the hashCode. In the normal String class hashCode() is O(N) the first time and then it is O(1) since it is kept for future use.

public class HashWrap {
    private final String value;
    private final int hash;

    public String get() {
        return value;

    public HashWrap(String value) {
        this.value = value;
        String lc = value.toLowerCase();
        this.hash = lc.hashCode();

    public boolean equals(Object o) {
        if (this == o) return true;
        if (o instanceof HashWrap) {
            HashWrap that = (HashWrap) o;
            return value.equalsIgnoreCase(that.value);
        } else {
            return false;

    public int hashCode() {
        return this.hash;

    //might want to implement compare too if you want to use with SortedMaps/Sets.

This would allow you to use any implementation of Hashtable in java and to have O(1) hasCode().

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Two choices come to my mind:

1) You could use directly the s.toUpperCase().hashCode(); as the key of the Map. 2) You could use a TreeMap with a custom Comparator that ignore the case.

Otherwise, if you prefer your solution, instead of defining a new kind of String, I would rather implement a new Map with the required case insensibility functionality.

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Based on other answers, there are basically two approaches: subclassing HashMap or wrapping String. The first one requires a little more work. In fact, if you want to do it correctly, you must override almost all methods (containsKey, entrySet, get, put, putAll and remove).

Anyway, it has a problem. If you want to avoid future problems, you must specify a Locale in String case operations. So you would create new methods (get(String, Locale), ...). Everything is easier and clearer wrapping String:

public final class CaseInsensitiveString {

    private final String s;

    public CaseInsensitiveString(String s, Locale locale) {
        this.s = s.toUpperCase(locale);

    // equals, hashCode & toString, no need for memoizing hashCode

And well, about your worries on performance: premature optimization is the root of all evil :)

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For a robust CaseInsensitiveMap / CaseInsensitiveSet implementation, check out java-util (

These Maps perform in standard O(1) lookup time, retain the case of the items added, support all Map APIs like putAll(), retainAll(), removeAll(), and allow heterogeneous items to be placed into the key set.

Furthermore, the java.util.Set's returned by .keySet() and .entrySet() honor case insensitivity (many implementations do not). Finally, if you fetch the key from the key / entry set while iterating, you get a String back, not a CaseInsensitiveString wrapper class.

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