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I was reading multi-threading in Java and I come across this

Local variables are thread safe in Java.

Since then I have been thinking How/Why local variables are thread safe.

Can somebody please let me know.

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12  
Because they are allocated in Stack. And threads do not share stack.. its unique for each.. –  Rohit Jain Oct 10 '12 at 18:23

7 Answers 7

up vote 36 down vote accepted

When you create a thread it will have its own stack created. Two threads will have two stacks and one thread never shares its stack with other thread.

All local variables defined in your program will be allocated memory in stack (As Jatin commented, memory here means, reference-value for objects and value for primitive types) (Each method call by a thread creates a stack frame on its own stack). As soon as method execution is completed by this thread, stack frame will be removed.

There is great lecture by Stanford professor in youtube which may help you in understanding this concept.

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2  
I am sorry, you are wrong, only primitive local variables are stored on stack. Rest all variables are stored on Heap. Java 7 introduced escape analysis, which for some varibles might allocate it in stack –  Jatin Apr 17 '13 at 7:46
1  
Stack only holds the reference to the object on heap. Because stack gets cleared, so does the reference. hence it is available for garbage collection –  Jatin Apr 17 '13 at 7:48
1  
@Jatin: You are correct. When I meant memory, I mean reference-value for objects and values for primitives (I think novice developers also know that Objects are on heap). –  Nambari Apr 17 '13 at 14:43
1  
@Nambari but if the reference value points to a shared variable. Then how can we say that it is thread safe? –  hajder Jun 23 '14 at 9:54
    
@hajder: What makes a variable as shared? start from there. Either instance or class variables right? not local variables AND read Marko Toplink answer in this thread, I think that is the point you are confused about. –  Nambari Jun 23 '14 at 13:49

Local variables are stored in each thread's own stack. That means that local variables are never shared between threads. That also means that all local primitive variables are thread safe.

public void someMethod(){

   long threadSafeInt = 0;

   threadSafeInt++;
}

Local references to objects are a bit different. The reference itself is not shared. The object referenced however, is not stored in each threads's local stack. All objects are stored in the shared heap. If an object created locally never escapes the method it was created in, it is thread safe. In fact you can also pass it on to other methods and objects as long as none of these methods or objects make the passed object available to other threads

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There is a mistake in agrument, pl look at comments of @Nambari response –  Jatin Apr 17 '13 at 7:52
    
If you're pointing to the fact that localSafeInt will alsways just be 0, then 1 and then deleted anyway thats good. So it shows that this variable is not shared among threads and thereby not affected by multi threading.. i think you could point it out a little more that threadsafe is always just 0 or 1 –  tobi Mar 4 at 17:28

Think of methods like definitions of functionality. When two threads run the same method, they are in no way way related. They will each create their own version of each local variable, and will be unable to interact with eachother in any way.

If variables aren't local, (like instance variables defined outside of a method at the class level, then they are attached to the instance (not a single run of the method). In this case, two threads running the same method both see the one variable, and this isn't threadsafe.

Consider these two cases:

public class NotThreadsafe {
    int x = 0;
    public int incrementX() {
        x++;
        return x;
    }
}

public class Threadsafe {
    public int getTwoTimesTwo() {
        int x = 1;
        x++;
        return x*x;
    }
}

In the first, two threads running on the same instance of NotThreadsafe will see the same x. This could be dangerous, because the threads are trying to change x! In the second, two threads running on the same instance of Threadsafe will see totally different versions of x, and can't effect each other.

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Each method invocation has its own local variables and, obviously, a method invocation happens in a single thread. A variable that is only updated by a single thread is inherently thread-safe.

However, keep a close eye on what exactly is meant by this: only the writes to the variable itself are thread-safe; calling methods on the object that it refers to is not inherently thread-safe. Same goes for directly updating object's variables.

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You say "calling methods on the object that it refers to is not inherently thread-safe". But, how the object referred by a method local reference - instantiated in this method scope - can be shared by two threads? Could you point out by example? –  Akshay Lokur Oct 7 '14 at 10:26
    
A local variable may or may not hold an object instantiated within the method scope, that was not part of the question. Even if it is, the method may access shared state. –  Marko Topolnik Oct 7 '14 at 10:33

In addition to the other answers such as Nambari's.

I'd like to point out that you can use a local variable in an anoymous type method:

This method could be called in other threads which could compromise threadsafety, so java forces all local variables used in anoymous types to be declared as final.

Consider this illegal code:

public void nonCompilableMethod() {
    int i=0;
    for(int t=0; t<100; t++)
    {
      new Thread(new Runnable() {
                    public void run() {
                      i++; //compile error, i must be final:
                      //Cannot refer to a non-final variable i inside an
                      //inner class defined in a different method
                    }
       }).start();
     }
  }

If java did allow this (like C# does through "closures"), a local variable would no longer be threadsafe in all circumstances. In this case, the value of i at the end of all the threads is not guaranteed to be 100.

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Thread will have its own stack. Two threads will have two stacks and one thread never shares its stack with other thread. Local variables are stored in each thread's own stack. That means that local variables are never shared between threads.

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Basically Four Type Of Storage Are There in java to store Class Information and data:

Method Area,Heap,JAVA Stack,PC

so Method area and Heap is shared by all the threads but every thread is having its own JAVA Stack and PC and that is not shared by any other Threads.

Each method in java is as Stack frame. so, when one method is called by a thread that stack frame is loaded on its JAVA Stack.All the local variable which are there in that stack frame and related operand stack are not shared by others. PC will have information of next instruction to execute in method's byte code. so all the local variables are THREAD SAFE.

@Weston has also Given good answer.

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