I want to implement a shared object for calculation of statistics of executions of operations. Objects state will be represented by Map<String,AtomicInteger>(key is the name of operation, value is the number of times the operation was executed). Am I correct that I can choose a HashMap<String,AtomicInteger> implementation and use no synchronization on it for getting values from it since AtomicInteger has a volatile value field underneath it.

Sample of code that does addition and incrementation of execution stats:

import java.util.HashMap;
import java.util.Map;
import java.util.concurrent.atomic.AtomicInteger;

public final class Stats {

private final Map<String, AtomicInteger> statistics = new HashMap<String, AtomicInteger>();

public int increment(String operationName) {
    if (!statistics.containsKey(operationName)) {
        synchronized (statistics) {
            if (!statistics.containsKey(operationName)) 
                statistics.put(operationName, new AtomicInteger(0));

    return statistics.get(operationName).getAndIncrement();

public int getOpStats(String operationName) {
    if (!statistics.containsKey(operationName)) {
        return 0;
    return statistics.get(operationName).get();

  • It's unclear what you are trying to ask. Please, try to formulate an specific question. Jan 19, 2014 at 21:23
  • 1
    There is no need to implement this yourself, a threadsafe mapping from key -> int already exists in Guava's ConcurrentHashMultiset
    – MikeFHay
    Jan 19, 2014 at 23:59

1 Answer 1


If you want to be thread safe with regards to counter initialization you should use a ConcurrentHashMap and always instanciate-and-increase the counters this way:

themap.putIfAbsent("the name", new AtomicInteger(0)); 
themap.get("the name").incrementAndGet();

You could also make sure you initialize all the counters used before you start, and just use whatever collection you like. A plain AtomicInteger[]-array is by far quickest, given that you know where to look, HashTable could be slightly quicker than HashMap.

If you know on beforehand which counters you have, you could also define a java enum of all the counter names and use an EnumMap<YourCountersEnum, AtomicInteger>. This would probably give look-up performance close to an AtomicInteger[]-array lookup.

  • If you do it this way, you'll have to make sure that you putIfAbsent an AtomicInteger(1) not 0!
    – Voo
    Jan 19, 2014 at 22:05
  • 3
    @Voo No! If you do that you get 2 the first time you initialize a counter. You always increment them unconditionally by incrementAndGet, but creates them if they was null. "null == zero". Bit me as well.
    – claj
    Jan 19, 2014 at 23:32
  • Ah ok, yes obviously you can always create the AtomicInteger if you want and it's probably not going to be especially expensive - still seems rather wasteful, but yes will work.
    – Voo
    Jan 20, 2014 at 11:34
  • putIfAbsent is cheaper if the object exists already. Increasing a number is not that expensive (that's why it has a method). It's the two volatile lookups that are expensive here.
    – claj
    Jan 20, 2014 at 11:37
  • 1
    Wouldn't this be better? x = putIfAbsent(..., new AtomicInteger(1)); if (x != null) x.incrementAndGet();
    – Andreas
    May 29, 2016 at 10:31

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