Consider you have a map<String, Object> myMap.

Given the expression "some.string.*", I have to retrieve all the values from myMap whose keys starts with this expression.

I am trying to avoid for loops because myMap will be given a set of expressions not only one and using for loop for each expression becomes cumbersome performance wise.

What is the fastest way to do this?

  • Are you sure speed is important? How big is the keySet and how many expressions will you typically have to process? – Adriaan Koster Nov 23 '12 at 14:46
  • @AdriaanKoster The keys are normally around 5000 - 10000. Expressions are around 1000(max, the client specifies them) – Adel Boutros Nov 23 '12 at 15:00

If you work with NavigableMap (e.g. TreeMap), you can use benefits of underlying tree data structure, and do something like this (with O(lg(N)) complexity):

public SortedMap<String, Object> getByPrefix( 
        NavigableMap<String, Object> myMap, 
        String prefix ) {
    return myMap.subMap( prefix, prefix + Character.MAX_VALUE );

More expanded example:

import java.util.NavigableMap;
import java.util.SortedMap;
import java.util.TreeMap;

public class Test {

    public static void main( String[] args ) {
        TreeMap<String, Object> myMap = new TreeMap<String, Object>();
        myMap.put( "111-hello", null );
        myMap.put( "111-world", null );
        myMap.put( "111-test", null );
        myMap.put( "111-java", null );

        myMap.put( "123-one", null );
        myMap.put( "123-two", null );
        myMap.put( "123--three", null );
        myMap.put( "123--four", null );

        myMap.put( "125-hello", null );
        myMap.put( "125--world", null );

        System.out.println( "111 \t" + getByPrefix( myMap, "111" ) );
        System.out.println( "123 \t" + getByPrefix( myMap, "123" ) );
        System.out.println( "123-- \t" + getByPrefix( myMap, "123--" ) );
        System.out.println( "12 \t" + getByPrefix( myMap, "12" ) );

    private static SortedMap<String, Object> getByPrefix(
            NavigableMap<String, Object> myMap,
            String prefix ) {
        return myMap.subMap( prefix, prefix + Character.MAX_VALUE );

Output is:

111     {111-hello=null, 111-java=null, 111-test=null, 111-world=null}
123     {123--four=null, 123--three=null, 123-one=null, 123-two=null}
123--   {123--four=null, 123--three=null}
12      {123--four=null, 123--three=null, 123-one=null, 123-two=null, 125--world=null, 125-hello=null}
  • This seems interesting. do you have any idea about the performance gain of this approach compared to nest loops and if conditions? – Adel Boutros Nov 23 '12 at 15:09
  • If you mean iterating through all keys set - you'll get complexity O(N). But, with TreeMap you'll achieve O(log(N)) complexity – stemm Nov 23 '12 at 15:20
  • Is it possible to get and remove the submap that matches the prefix? – raffian Jan 11 '14 at 19:33
  • The simplest way which comes to my mind - is just to retrieve submap. After that - copy all of the keys of submap to separate collection (it is needed to avoid ConcurrentModificationException, because of retrieved submap is just a view of original map). And, finally, iterate over collection with extracted keys and remove corresponding entries from original map. The complexity of described operations is O(N * log(N)) – stemm Jan 12 '14 at 10:12
  • On the other hand, if all you need is to remove entries with keys which have a specific prefix - you don't need to retrieve submap. You can copy all of the keys to separate collection (to avoid ConcurrentModificationException). After that - iterate over the list of keys and remove entries which corresponding to keys with specific prefix. Complexity also would be O(N * log(N)) – stemm Jan 12 '14 at 10:21

I wrote a MapFilter recently for just such a need. You can also filter filtered maps which makes then really useful.

If your expressions have common roots like "some.byte" and "some.string" then filtering by the common root first ("some." in this case) will save you a great deal of time. See main for some trivial examples.

Note that making changes to the filtered map changes the underlying map.

public class MapFilter<T> implements Map<String, T> {

    // The enclosed map -- could also be a MapFilter.
    final private Map<String, T> map;

    // Use a TreeMap for predictable iteration order.
    // Store Map.Entry to reflect changes down into the underlying map.
    // The Key is the shortened string. The entry.key is the full string.
    final private Map<String, Map.Entry<String, T>> entries = new TreeMap<>();
    // The prefix they are looking for in this map.
    final private String prefix;

    public MapFilter(Map<String, T> map, String prefix) {
        // Store my backing map.
        this.map = map;
        // Record my prefix.
        this.prefix = prefix;
        // Build my entries.

    public MapFilter(Map<String, T> map) {
        this(map, "");

    private synchronized void rebuildEntries() {
        // Start empty.
        // Build my entry set.
        for (Map.Entry<String, T> e : map.entrySet()) {
            String key = e.getKey();
            // Retain each one that starts with the specified prefix.
            if (key.startsWith(prefix)) {
                // Key it on the remainder.
                String k = key.substring(prefix.length());
                // Entries k always contains the LAST occurrence if there are multiples.
                entries.put(k, e);


    public String toString() {
        return "MapFilter(" + prefix + ") of " + map + " containing " + entrySet();

    // Constructor from a properties file.
    public MapFilter(Properties p, String prefix) {
        // Properties extends HashTable<Object,Object> so it implements Map.
        // I need Map<String,T> so I wrap it in a HashMap for simplicity.
        // Java-8 breaks if we use diamond inference.
        this(new HashMap<>((Map) p), prefix);

    // Helper to fast filter the map.
    public MapFilter<T> filter(String prefix) {
        // Wrap me in a new filter.
        return new MapFilter<>(this, prefix);

    // Count my entries.
    public int size() {
        return entries.size();

    // Are we empty.
    public boolean isEmpty() {
        return entries.isEmpty();

    // Is this key in me?
    public boolean containsKey(Object key) {
        return entries.containsKey(key);

    // Is this value in me.
    public boolean containsValue(Object value) {
        // Walk the values.
        for (Map.Entry<String, T> e : entries.values()) {
            if (value.equals(e.getValue())) {
                // Its there!
                return true;
        return false;

    // Get the referenced value - if present.
    public T get(Object key) {
        return get(key, null);

    // Get the referenced value - if present.
    public T get(Object key, T dflt) {
        Map.Entry<String, T> e = entries.get((String) key);
        return e != null ? e.getValue() : dflt;

    // Add to the underlying map.
    public T put(String key, T value) {
        T old = null;
        // Do I have an entry for it already?
        Map.Entry<String, T> entry = entries.get(key);
        // Was it already there?
        if (entry != null) {
            // Yes. Just update it.
            old = entry.setValue(value);
        } else {
            // Add it to the map.
            map.put(prefix + key, value);
            // Rebuild.
        return old;

    // Get rid of that one.
    public T remove(Object key) {
        // Do I have an entry for it?
        Map.Entry<String, T> entry = entries.get((String) key);
        if (entry != null) {
            // Change the underlying map.
            return map.remove(prefix + key);
        return null;

    // Add all of them.
    public void putAll(Map<? extends String, ? extends T> m) {
        for (Map.Entry<? extends String, ? extends T> e : m.entrySet()) {
            put(e.getKey(), e.getValue());

    // Clear everything out.
    public void clear() {
        // Just remove mine.
        // This does not clear the underlying map - perhaps it should remove the filtered entries.
        for (String key : entries.keySet()) {
            map.remove(prefix + key);

    public Set<String> keySet() {
        return entries.keySet();

    public Collection<T> values() {
        // Roll them all out into a new ArrayList.
        List<T> values = new ArrayList<>();
        for (Map.Entry<String, T> v : entries.values()) {
        return values;

    public Set<Map.Entry<String, T>> entrySet() {
        // Roll them all out into a new TreeSet.
        Set<Map.Entry<String, T>> entrySet = new TreeSet<>();
        for (Map.Entry<String, Map.Entry<String, T>> v : entries.entrySet()) {
            entrySet.add(new Entry<>(v));
        return entrySet;

     * An entry.
     * @param <T> The type of the value.
    private static class Entry<T> implements Map.Entry<String, T>, Comparable<Entry<T>> {

        // Note that entry in the entry is an entry in the underlying map.

        private final Map.Entry<String, Map.Entry<String, T>> entry;

        Entry(Map.Entry<String, Map.Entry<String, T>> entry) {
            this.entry = entry;

        public String getKey() {
            return entry.getKey();

        public T getValue() {
            // Remember that the value is the entry in the underlying map.
            return entry.getValue().getValue();

        public T setValue(T newValue) {
            // Remember that the value is the entry in the underlying map.
            return entry.getValue().setValue(newValue);

        public boolean equals(Object o) {
            if (!(o instanceof Entry)) {
                return false;
            Entry e = (Entry) o;
            return getKey().equals(e.getKey()) && getValue().equals(e.getValue());

        public int hashCode() {
            return getKey().hashCode() ^ getValue().hashCode();

        public String toString() {
            return getKey() + "=" + getValue();

        public int compareTo(Entry<T> o) {
            return getKey().compareTo(o.getKey());


    // Simple tests.
    public static void main(String[] args) {
        String[] samples = {
        Map map = new HashMap();
        for (String s : samples) {
            map.put(s, s);
        Map all = new MapFilter(map);
        Map some = new MapFilter(map, "Some.");
        Map someFor = new MapFilter(some, "For.");
        System.out.println("All: " + all);
        System.out.println("Some: " + some);
        System.out.println("Some.For: " + someFor);

        Properties props = new Properties();
        props.setProperty("namespace.prop1", "value1");
        props.setProperty("namespace.prop2", "value2");
        props.setProperty("namespace.iDontKnowThisNameAtCompileTime", "anothervalue");
        props.setProperty("someStuff.morestuff", "stuff");
        Map<String, String> filtered = new MapFilter(props, "namespace.");
        System.out.println("namespace props " + filtered);


map's keyset has no a special structure so I think you have to check each of the keys anyway. So you can't find a way which will be faster than a single loop...

  • But the single loop will be inside another loop (because of the fact that I have a set of expressions) – Adel Boutros Nov 23 '12 at 14:30
  • Yeah I know. but anyway. think... if you're someone, who can create methods with his mind. how would you create the method you want...? in every way you have to look at each of the keys at least once. – shift66 Nov 23 '12 at 14:33
  • and you cant check if that key starts with one of your given expressions or not. I think the only thing you can do is to sort expressions so in the beginning (if you know which ones are more common) – shift66 Nov 23 '12 at 14:35
  • P.S. can't check without another (nested) loop – shift66 Nov 23 '12 at 14:41

I used this code to do a speed trial:

public class KeyFinder {

    private static Random random = new Random();

    private interface Receiver {
        void receive(String value);

    public static void main(String[] args) {
        for (int trials = 0; trials < 10; trials++) {

    private static void doTrial() {

        final Map<String, String> map = new HashMap<String, String>();
        giveRandomElements(new Receiver() {
            public void receive(String value) {
                map.put(value, null);
        }, 10000);

        final Set<String> expressions = new HashSet<String>();
        giveRandomElements(new Receiver() {
            public void receive(String value) {
        }, 1000);

        int hits = 0;
        long start = System.currentTimeMillis();
        for (String expression : expressions) {
            for (String key : map.keySet()) {
                if (key.startsWith(expression)) {
        long stop = System.currentTimeMillis();
        System.out.printf("Found %s hits in %s ms\n", hits, stop - start);

    private static void giveRandomElements(Receiver receiver, int count) {
        for (int i = 0; i < count; i++) {
            String value = String.valueOf(random.nextLong());


The output was:

Found 0 hits in 1649 ms
Found 0 hits in 1626 ms
Found 0 hits in 1389 ms
Found 0 hits in 1396 ms
Found 0 hits in 1417 ms
Found 0 hits in 1388 ms
Found 0 hits in 1377 ms
Found 0 hits in 1395 ms
Found 0 hits in 1399 ms
Found 0 hits in 1357 ms

This counts how many of 10000 random keys start with any one of 1000 random String values (10M checks).

So about 1.4 seconds on a simple dual core laptop; is that too slow for you?


Remove all keys which does not start with your desired prefix:

yourMap.keySet().removeIf(key -> !key.startsWith(keyPrefix));

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