Not sure what is triggering a java.util.ConcurrentModificationException when I iterate over the LinkedHashMap structure in the code below. Using the Map.Entry approach works fine. Did not get a good explanation on what is triggering this from the previous posts.

Any help would be appreciated.

import java.util.LinkedHashMap;
import java.util.Map;

public class LRU {

    // private Map<String,Integer> m = new HashMap<String,Integer>();
    // private SortedMap<String,Integer> lru_cache = Collections.synchronizedSortedMap(new TreeMap<String, Integer>());

    private static final int MAX_SIZE = 3;

    private LinkedHashMap<String,Integer> lru_cache = new LinkedHashMap<String,Integer>(MAX_SIZE, 0.1F, true){
        protected boolean removeEldestEntry(Map.Entry eldest) {
            return(lru_cache.size() > MAX_SIZE);

    public Integer get1(String s){
        return lru_cache.get(s);        

    public void displayMap(){
         * Exception in thread "main" java.util.ConcurrentModificationException
            at java.util.LinkedHashMap$LinkedHashIterator.nextEntry(LinkedHashMap.java:373)
            at java.util.LinkedHashMap$KeyIterator.next(LinkedHashMap.java:384)
            at LRU.displayMap(LRU.java:23)
            at LRU.main(LRU.java:47)
        *for(String key : lru_cache.keySet()){

// This parser works fine        
//        for(Map.Entry<String, Integer> kv : lru_cache.entrySet()){
//            System.out.println(kv.getKey() + ":" + kv.getValue());
//        }

    public void set(String s, Integer val){
            lru_cache.put(s, get1(s) + val);
            lru_cache.put(s, val);

    public static void main(String[] args) {

        LRU lru = new LRU();
        lru.set("Di", 1);
        lru.set("Da", 1);
        lru.set("Daa", 1);
        lru.set("Di", 1);        
        lru.set("Di", 1);
        lru.set("Daa", 2);
        lru.set("Doo", 2);
        lru.set("Doo", 1);        
        lru.set("Sa", 2);
        lru.set("Na", 1);
        lru.set("Di", 1);
        lru.set("Daa", 1);



  • 2
    Did you really mean to have a load factor of 0.1 as you set the initial capacity to MAX_SIZE. What the load factor does is ensure there is at least a capacity of size()/load_factor. i.e. when you have 3 keys, you will have a capacity of at least 30 (actually 32 as it has to be a power of 2). I suggest using MAX_SIZE*10/7 and the default load factor of 0.7f which will give you a capacity of 4 in this case. – Peter Lawrey Apr 24 '13 at 7:23

Read the Javadoc for LinkedHashMap:

A structural modification is any operation that adds or deletes one or more mappings or, in the case of access-ordered linked hash maps, affects iteration order. In insertion-ordered linked hash maps, merely changing the value associated with a key that is already contained in the map is not a structural modification. In access-ordered linked hash maps, merely querying the map with get is a structural modification.

Since you're passing in true to the LinkedHashMap constructor, it is in access order and when you are trying to get something from it, you are structurally modifying it.

Also note that when you use the enhanced for syntax, you are actually using an iterator. Simplified quote from JLS §14.14.2:

The enhanced for statement has the form:


for ( TargetType Identifier : Expression ) Statement


If the type of Expression is a subtype of Iterable<X> for some type argument X, then let I be the type java.util.Iterator<X>; otherwise, let I be the raw type java.util.Iterator.

The enhanced for statement is equivalent to a basic for statement of the form:

for (I #i = Expression.iterator(); #i.hasNext(); ) {
     TargetType Identifier =
         (TargetType) #i.next();

#i is an automatically generated identifier that is distinct from any other identifiers (automatically generated or otherwise) that are in scope (§6.3) at the point where the enhanced for statement occurs.

Also, in the Javadoc for LinkedHashMap:

The iterators returned by the iterator method of the collections returned by all of this class's collection view methods are fail-fast: if the map is structurally modified at any time after the iterator is created, in any way except through the iterator's own remove method, the iterator will throw a ConcurrentModificationException.

Therefore, when you are calling get on the map, you are performing structural modifications to it, causing the iterator in the enhanced-for to throw an exception. I think you meant to do this, which avoids calling get:

for (Integer i : lru_cache.values()) {

You're using an access-ordered linked hash map: from the spec at http://docs.oracle.com/javase/7/docs/api/java/util/LinkedHashMap.html,

A structural modification is any operation that adds or deletes one or more mappings or, in the case of access-ordered linked hash maps, affects iteration order. In insertion-ordered linked hash maps, merely changing the value associated with a key that is already contained in the map is not a structural modification. In access-ordered linked hash maps, merely querying the map with get is a structural modification.)

Simply calling get is enough to be considered a structural modification, triggering the exception. If you use the entrySet() sequence you're only querying the entry and NOT the map, so you don't trigger the ConcurrentModificationException.


In the constructor of LinkedHashMap you pass true to get the LRU behaviour (meaning the eviction policy is access order rather than false for insertion order).

So every time you call get(key) the underlying Map.Entry increments an access counter AND reorders the collection by moving the (last accessed) Map.Entry to the head of the list.

The iterator (implicitly created by the for loop) checks the modified flag, which is different from the copy it took originally, so throws the ConcurrentModificationException.

To avoid this you should use the entrySet() as the implementation is inherited from java.util.HashMap and therefore the iterator doesn't check the modification flags:

    for(Map.Entry<String,Integer> e : lru_cache.entrySet()){

Be aware this class isn't threadsafe so in concurrent environments you will need to use an potentially expensive guards like Collections.synchronizedMap(Map). In this scenario a better option might be Google's Guava Cache.


java.util.ConcurrentModificationException : If there are any structural changes (additions, removals, rehashing, etc.) to the underlying list while the iterator exists. The iterator checks to see if the list has changed before each operation. This is known as 'failsafe operation'.

If a thread modifies a collection directly while it is iterating over the collection with a fail-fast iterator, the iterator will throw this exception.Here you cannot call the get() method while using an iterator because calling get() structurally modifies the map and hence the next call to one of the iterators method fails and throws a ConcurrentModificationException.


Your code

for(String key : lru_cache.keySet()){

Actually compiles to:

Iterator<String> it = lru_cache.keySet().iterator();
while (it.hasNext()) {
    String key = it.next();

Next, your LRU cache shrinks itself to MAX_SIZE elements not when calling set(), but when calling get() - above answers explain why.

Thus we have following behavior:

  • new iterator created to iterate over lru_cache.keySet() collection
  • lru_cache.get() called to extract element from your cache
  • get() invocation truncates lru_cache to MAX_SIZE elements (in your case 3)
  • iterator it becomes invalid due to collection modification and throws on next iteration.

It is coz of fail-fast behaviour of collections framework also when you modify the list (by adding or removing elements) while traversing a list with this error will be there with Iterator. I came across this error some time back . Refer below threads to for detail info.

ConcurrentModificationException when adding inside a foreach loop in ArrayList

Though this says array list, it applies for most of the collection(s) data strucutres.

Concurrent Modification Exception : adding to an ArrayList


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