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Is there any performance difference between AtomicInteger and Integer?

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3  
Measure it if you care. –  artbristol Jan 16 '12 at 10:59

4 Answers 4

up vote 7 down vote accepted

The choice of these two types should not depend on the performance. The main choice for AtomicInteger is if you want to achieve thread safety with the operations on the integer.

However the performace difference might strongly depend on the choosen operating system, as the detailed implementation of atomic operations depend on the operating system.

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+1. AtomicInteger also provide a cheap mutable integer, even in a non-concurrent use-case. –  JB Nizet Jan 16 '12 at 10:43
    
-1: AtomicInteger exists mainly for performance reason (to implement lock-free data structures). If thead safety were the only concern, you could simply use synchronization. –  Michael Borgwardt Jan 16 '12 at 10:57
    
@MichaelBorgwardt: just because thread-safety is possible with just synchronization doesn't mean that AtomicInteger doesn't provide thread-safe integer operations. The point of the answer is that the raw performance of Integer and AtomicInteger is not what guides the choice of one or the other. What guides the choice is the intended usage: do we need a mutable thread-safe integer, or do we simply want to rap an integer into an immutable object? –  JB Nizet Jan 16 '12 at 11:11
    
@JB Nizet: mutability is not mentioned in the answer. And apart from that, how can performance not be what guides the choice when one of the choices exists because of performance? –  Michael Borgwardt Jan 16 '12 at 11:34
    
@MichaelBorgwardt: The question of the OP doesn't even mention multi-threading. He just asks if there is a performance difference between Integer and AtomicInteger. AtomicInteger has not been created to have a faster Integer. It has been created to provide a thread-safe, lock-free, mutable Integer. If you don't need mutability and are not executing in a multi-threaded environment, the performance of both doesn't matter. You choose the most appropriate type: Integer. AtomicInteger should only be considered if you need mutability (and thread-safety). –  JB Nizet Jan 16 '12 at 11:49

Well, if you use it in multithreaded environment, as a, e.g. counter, then you have to synchronize access to the Integer

public final class Counter {
  private long value = 0;
  public synchronized long getValue() {
    return value;
  }

  public synchronized long increment() {
    return ++value;
  }
}

While you can have much better performance with AtomicInteger without synchronization

public class NonblockingCounter {
    private AtomicInteger value;

    public int getValue() {
        return value.get();
    }

    public int increment() {
        return value.incrementAndGet();
    }
}

Recommended reading http://cephas.net/blog/2006/09/06/atomicinteger/

EDIT use incrementAndGet

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Why not using incrementAndGet? –  JB Nizet Jan 16 '12 at 10:43
    
you mean getAndIncrement? Well, good question sir, I guess I was too quick and lazy. –  bpgergo Jan 16 '12 at 10:49
    
No, I mean incrementAndGet. getAndIncrement would be equivalent to return i++. But your first snippet returnn ++i; –  JB Nizet Jan 16 '12 at 10:56
    
Umm... yupp, maybe I should focus only on my work now, thanks. –  bpgergo Jan 16 '12 at 11:01

Other than the very minor synchronization overhead, no.

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AtomicInteger allows some (not all!) operations that would otherwise require synchronization to be performed in a lock-free manner using special hardware instructions. How this affects performance is somewhat complex:

  • First, it's a micro-optimization that will only matter if this particular operation is on your application's critical path.
  • The special hardware instructions may not be available on non-mainstream platforms, in which case AtomicInteger will probably be implemented using synchronization.
  • The JVM can often optimize away locking overhead when there is no contention (e.g., a single threaded application). In that case, there's probably no difference.
  • If there is low to moderate lock contention (i.e. multiple threads, but they mostly do other things than just accessing that integer), the lock-free algorithm performs better than synchronization.
  • If there is very heavy lock contention (i.e. lots of threads that spend a lot of time trying to access that integer), synchronization may perform better because the lock-free algorithm is based on constantly retrying the operation when it fails due to a collision.
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