52

If in a class I have a ConcurrentHashMap instance that will be modified and read by multiple threads I might define like this:

public class My Class {

    private volatile ConcurrentHashMap<String,String> myMap = new ConcurrentHashMap<String,String>();
...
}

adding final to the myMap field results in an error saying I can only use final or volatile. Why can it not be both?

1

8 Answers 8

45

volatile only has relevance to modifications of the variable itself, not the object it refers to. It makes no sense to have a final volatile field because final fields cannot be modified. Just declare the field final and it should be fine.

14
  • 1
    just like to clarify your comment that "final fields cannot be modified"; final fields are, in fact, mutable, but that the final keyword only allows assignment to take place one time. Jan 16, 2014 at 4:33
  • 5
    @johnterpreneur: that is not correct; final fields can be assigned to only during construction of the object, which is pretty much the definition of "immutable". Jan 16, 2014 at 7:17
  • 3
    @johntrepreneur: Ah, now I see where the misunderstanding occurs. As I wrote in the answer, there is a difference between a field and the object it refers to - an important distinction that you're apparently missing (or using the wrong terminology for). final means the field itself cannot be modified, but it can still refer to a mutable object. The content of the field is just a reference (for non-primitive types), not an object. Jan 17, 2014 at 20:33
  • 1
    @corsiKa that’s why objects should never leak during construction. This problem is not exclusive to final fields…
    – Holger
    Jan 14, 2020 at 8:24
  • 2
    @shmosel the Java standard does not define memory barriers. There’s a happens-before relationship between a read and the write of that value for both, final and volatile variables. A thread does not get additional guarantees by performing subsequent reads of the same value. Implementations like the HotSpot JVM may conservatively insert a barrier every time you read a volatile variable, but you still wouldn’t be able to build a correct program relying on that. when the value didn’t change. So for final variables which do not change again, volatile wouldn’t make any sense.
    – Holger
    Jan 14, 2020 at 8:34
39

It's because of Java Memory Model (JMM).

Essentially, when you declare object field as final you need to initialize it in object's constructor and then final field won't change it's value. And JMM promises that after ctor is finished any thread will see the same (correct) value of final field. So, you won't need to use explicit synchronization, such as synchronize or Lock to allow all threads to see correct value of final field.

When you declare object's field as volatile, field's value can change, but still every read of value from any thread will see latest value written to it.

So, final and volatile achieve same purpose -- visibility of object's field value, but first is specifically used for a variable may only be assigned to once and second is used for a variable that can be changed many times.

References:

4
  • The explanation is quite fine for me, however I wouldn't say that final is used for 'constant' values. This statement is a bit misleading, though I understand what you wanted to say. Sep 11, 2013 at 19:04
  • 3
    '"final and volatile" achieve same purpose...' I think that's putting the cart before the horse. The purpose of final is to declare that a variable or field must not be assigned. The purpose of volatile is to tell the compiler that the value can not be inferred by examining the code. The fact that the Java memory model has special rules about the visibility of each of those two kinds of variable is secondary to their non-overlapping purposes. May 29, 2014 at 20:31
  • This is the only answer that actually addresses the core question, "JMM promises that after ctor is finished any thread will see the same (correct) value of final field." but provided docs references don't back it up
    – minsk
    Oct 2, 2020 at 2:47
  • But what if we have final int[] array? Thread A assigns array[index] = 42 and Thread B has no guarantee that it will see this value.
    – Nick Nick
    Nov 21, 2021 at 22:44
9

Because volatile and final are two extreme ends in Java

volatile means the variable is bound to changes

final means the value of the variable will never change whatsoever

1
  • The question arises when you create container object on one thread (with its final reference written, yes once, but on a certain thread) and then read that reference it from another thread
    – minsk
    Oct 2, 2020 at 2:49
4

volatile is used for variables that their value may change, in certain cases, otherwise there is no need for volatile, and final means that the variable may not change, so there's no need for volatile.

Your concurrency concerns are important, but making the HashMap volatile will not solve the problem, for handling the concurrency issues, you already use ConcurrentHashMap.

1
  • 1
    You can't make a HashMap (or any other object) volatile. The 'volatile' keyword affects the variable, not the objects to which the variable may refer. May 29, 2014 at 20:34
3

A volatile field gives you guarantees as what happens when you change it. (No an object which it might be a reference to)

A final field cannot be changed (What the fields reference can be changed)

It makes no sense to have both.

1
  • The question arises because you construct object on one thread and this is where the reference is originally set and then may read that reference on another thread.
    – minsk
    Oct 2, 2020 at 2:37
3

volatile modifier guarantees that all reads and writes go straight to main memory, i.e. like the variable access is almost into synchronized block. This is irrelevant for final variable that cannot be changed.

2

Because it doesn't make any sense. Volatile affects object reference value, not the object's fields/etc.

In your situation (you have concurrent map) you should do the field final.

0

In a multithread environment different threads will read a variable from main memory and add it to the CPU cache. It may result in two different threads making changes on the same variable, while ignoring each others results. enter image description here

We use word volatile to indicate that variable will be saved in main memory and will be read from main memory. Thus whenever a thread want to read/write a variable it will be done from main memory, essentially making a variable safe in multithread environment.

When we use final keyword we indicate that variable will not change. As you can see if a variable is unchangeable, than it doesn't matter if multiple threads will use it. No thread can change the variable, so even if variable is saved to CPU caches at different times, and threads will use this variable at different times than it's still ok, because the variable can only be read.

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