Can Java's Threadlocal be applied to a non-static field, if yes, how?

Question

ThreadLocal ensures a field is global and local to a thread. (Global because it is available to all methods in the thread and local because it is confined to that thread's stack alone.)

This made little sense to me as each thread's stack is confined to that thread alone. So it is already 'threadlocal', right ?

Why then do we need ThreadLocal ? - On further reading, I confirmed my assumption from various sites (a majority of which fail to provide these facts or contradict each other) that this is indeed applicable for static fields. Which does make sense.

So my question is, is there ever a multi-threading scenario where ThreadLocal can/needs to be applied to non-static fields ? (I came across some sites that say 'ThreadLocal' is "mainly" used for static fields; even https://docs.oracle.com/javase/7/docs/api/java/lang/ThreadLocal.html uses the word "typically")

Answer 1

I think that this Question is based on a false premise.

ThreadLocal ensures a field is global and local to a thread. (Global because it is available to all methods in the thread and local because it is confined to that thread's stack alone.)

This is not what "global" really means. Global really means accessible to the entire program without any qualification. And in fact, Java doesn't have true global variables. The closest it has is "public static" fields ... which are accessible with qualification.

But back to the Question ...

A threadlocal variable is available to a method if two conditions are satisfied:

• The method call must be on the correct thread. (If it is on a different thread, it sees a different variable.)

• The method must be able to get hold of the ThreadLocal object that effectively "declares" the thread local variable (in any thread).

Does the 2nd condition imply that the "declaration" is global?

IMO, no. For two reasons.

• Global variables in the conventional sense have only one instance. A thread local has a distinct instance for each thread.

• The fact that the ThreadLocal is accessible to a specific method does not make it accessible to any method. The normal (and good practice) usage pattern for a ThreadLocal is to hold the object reference in a private static variable. That means that methods in the same class can use the corresponding thread local variable instances ... but methods in other classes can't.

Now it is possible to put the reference to ThreadLocal in a public static variable, but why would you do that? You are explicitly creating a leaky abstraction ... which is liable to cause problems.

And of course, you can do what @Radiodef's answer shows; i.e. create a thread local whose instances are only accessible from methods on a specific instance of a specific class. But it is hard to understand why you would want / need to go to that level of confinement. (And it is liable to lead to storage leaks ...)

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Short answer: if you don't want your thread local variables to be accessible, restrict access to the ThreadLocal object.

Answer 2

Only local variables are on a thread's stack.* Static variables and instance variables both live on the heap. If we wanted to, we could also just pass a ThreadLocal around by itself without it ever living inside an object or class.

We could view ThreadLocal as a local variable which could be accessible at any point in time.

Normal local variables are destroyed when the scope they are declared in returns, but a ThreadLocal can live anywhere.

So my question is, is there ever a multi-threading scenario where ThreadLocal can/needs to be applied to non-static fields?

We can make one up...

interface Dial {}

class Gadget {
    ThreadLocal<Dial> d = new ThreadLocal<>();
}

class Gizmo implements Runnable {
    Gadget g;
    Gizmo(Gadget g) {
        this.g = g;
    }
    public void run() {}
}

{
    Gadget g = new Gadget();
    new Thread(new Gizmo(g)).start();
    new Thread(new Gizmo(g)).start();
}

Both threads share the same instance of Gadget but has their own local Dial.

Why then do we need ThreadLocal?

The truth is we don't need ThreadLocal very often, if at all.

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* Only local variables are on a thread's stack except in the case of a theoretical optimization the JVM is allowed to do where objects can be stack allocated. We would never find out about this if it happened because it would not be allowed to change the behavior of the program. If an object is shared between threads, it's on the heap.

Answer 3

static ThreadLocal<Whatever> threadLocal;

Declares a field that points to an instance of class ThreadLocal. Each Thread has a Map<ThreadLocal<?>, Object> that associates instances of ThreadLocal with the value the corresponding "thread local variable" has for this Thread. That is, each ThreadLocal instance identifies a "thread local variable", and as far as the JVM is concerned, ThreadLocal is a class like any other.

Usually, when we need a "thread local variable", we only need a single one, and therefore create only a single ThreadLocal instance, which is often kept in a static field for convenient access.

If we need a new "thread local variable" for every instance of the host object, we could simply create a new ThreadLocal instance for every host object, and store in an a non-static field. Off hand, I can't think of a case where this is the simplest solution, but we could do it.

Answer 4

Threadlocal is a container for a set of variables each one of which is only available to one thread, ie it provides an instance of the contained class for each thread. So the ThreadLocal object is globally available (spending on permissions) but each instance of the contained class is only locally available to the thread.

This means that it needs to be initialized and destroyed for each thread slightly differently but in all other ways it is the same as any other variable.

Note : The point of destroying instances is to prevent memory leaks or leakage of state between independent invocations on the same thread if threads are being drawn from a pool.

Thread local variables are often used to provide a thread safe option for storage where there is no need for communication between threads. One such example is to define a new scope in CDI where that scope will exist wholly within a single thread (eg you could define an asynchronous request scope).

As such there is no need to restrict it to static or non-static variables as long as it is accessible where it is needed. In a default java environment Static variables are a convenient way of providing such access but in CDI a Singleton bean can provide the same level of access with many advantages.

In the injected singleton case the singleton bean would contain a nonstatic reference to the ThreadLocal and provide services to access the instances contained therein. Both the references to the injected singleton and the singleton's reference to the ThreadLocal would be non static.